CN105853348B

CN105853348B - Parenteral injection stablizing solution

Info

Publication number: CN105853348B
Application number: CN201610221799.6A
Authority: CN
Inventors: 史蒂文·普莱斯特斯基; 约翰·肯泽勒
Original assignee: Xeris Pharmaceuticals Inc
Current assignee: Xeris Pharmaceuticals Inc
Priority date: 2011-03-10
Filing date: 2012-03-09
Publication date: 2019-08-30
Anticipated expiration: 2032-03-09
Also published as: AU2017200295A1; US20210315961A1; AU2012225268A1; ES2621304T3; WO2012122535A3; KR101978527B1; EA028572B1; US20140171362A1; US9295724B2; JP6063877B2; WO2012122535A2; US20140179600A1; CN105853348A; HK1191230A1; JP2014507484A; IL228348A0; MX2013010376A; AU2017200295B2; AU2012225268B2; US9302010B2

Abstract

The present invention provides a kind of parenteral injection stablizing solution.Specifically, the present invention provides the stabilization formulations of parenteral injection glucagon and treats hypoglycemia, the especially in emergency circumstances method of serious hypoglycemia using this kind of glucagon formulation.

Description

Parenteral injection stablizing solution

The application is entitled " stabilization formulations of parenteral injection peptide medicine " submitted on March 9th, 2012 China applies for No. 201280012645.6 divisional application.

Technical field

The present invention relates to pharmaceutical preparation, relate more specifically to the pharmaceutical preparation with the peptide for improving stability, and use The method that this kind of pharmaceutical preparation treats various diseases, illness and the patient's condition.

Background technique

Diabetes are serious health problem in modern society.Insulin is all crucial for I type and type-2 diabetes mellitus Therapeutic agent.Past vicennial research confirms to not only reduce hair by using stringent Metabolism control of the insulin to glucose Raw rate, and postpone the development of the complication of the people with 1 type and diabetes B.Unfortunately, stringent glucose control institute is realized The intensive insulin therapy needed is also related with the risk that the hypoglycemia of development or " hypoglycemia " dramatically increase.

The symptom of hypoglycemia is very different between patients, but generally comprise and tremble, palpitaition, irritability, anxiety, Nervousness, starvation, tachycardia, headache and pale.Once blood sugar recovery, to normal level, symptom will generally subside.If Hypoglycemia does not reverse, and the further decreasing of blood glucose will lead in central nervous system with neural low sugar symptom, such as is difficult to Concentrate on, speak with a lisp, eye-blurred, hypothermia, behavior change and if losing consciousness caused by not treating, epilepsy With the consumption of possible dead relevant glucose.

In general, hypoglycemia can be as defined below lighter extremely medium hypoglycemia or serious hypoglycemia:

It is lighter to medium hypoglycemia: regardless of symptom severity patient can with the breaking-out of Heal Thyself, or Wherein blood glucose level is lower than 70mg/dL (3.9 mM/ls) any asymptomatic blood glucose measurement.

Serious hypoglycemia: it is defined as patient in operation and is unable to Heal Thyself and needs the external hypoglycemia helped Breaking-out.Generally, neural low sugar symptom and cognitive impairment are opened when blood glucose level is about 50mg/dL (2.8 mM/ls) Begin.

Relatively light most of breaking-out to medium hypoglycemia can pass through the carbohydrate such as glucose of intake snap action Piece or food (snacks of fruit juice, soft drink or sweet tea) relatively easily Heal Thyself.According to definition, serious hypoglycemia cannot Heal Thyself, to need external intervention.If patient can swallow and be cooperation, it is suitble to use gelling agent or production Product such as honey or jelly are placed into inside cheek.It is high using the pancreas subcutaneously or intramuscularly injected if patient cannot swallow Blood glucose usually treats serious hypoglycemia.

Glucagon be naturally occurring 29 amino acid longs and by the α cell of pancreas secrete peptide hormone.The high blood of pancreas The major function of sugared element is to maintain glucose to generate by both decomposition of glycogen and gluconeogenesis, is mainly mediated by liver.The high blood of pancreas Sugared element is main insulin counter-regulatory hormones, and is used as the first-line treatment agent of the severe hypoglycemia of the patient of diabetes.

Many trials have been carried out to start the glucagon for treating severe hypoglycemia in emergency circumstances Give first aid to drug.Currently, it is currently available that there are two types of glucagon kits in the U.S., by Eli Lilly (Glucagon Emergency Kit) and Novo Nordisk (HypoKit it) manufactures.Two kinds of products are all by freeze-drying The bottle of glucagon and the combinations of syringe of prepackage full water dilution.The glucagon of freeze-drying must be using tight Unworkable complex steps reconstruct in anxious situation.These products also provide large volume injection, this is because glucagon It is insoluble in water.Recently, it has been attempted to improve the stability of glucagon in aqueous solution, to start more stable pancreas Glucagons analog and/or the delivering for improving the glucagon through powder injection.

Spite of all the progress that has been made, however, there remains for treating severe hypoglycemia in emergency circumstances More user-friendly glucagon gives first aid to drug.This glucagon rescue drug may require that by diabetic and/ Or its caretaker continuously carries, so that may require that under non-frozen temperature (25-30 DEG C) is that (> 2 years) are stable for a long time.It is ideal Ground can also require and general population is easy to apply, and excessive place is not needed before being applied to hypoglycemic Reason/reconstruct.Glucagon rescue drug can also require in certain temperature range, including the temperature range from 0 DEG C to 30 DEG C Inside it can be used.

Summary of the invention

In order to solve such demand and other problems, the present invention provide a kind of stable glucagon rescue preparation with And the method for using the stable glucagon formulation treating serious hypoglycemia.Advantageously, in preparation of the invention Middle glucagon be it is stabilized, make it possible to for a long time store and/or for a long time deliver.Similarly, the high blood of pancreas of the invention Sugared element preparation long-time stable at non-frozen temperature is easy to apply without reconstructing, and in certain temperature range, packet It can be used within the temperature range of including from 0 DEG C to 30 DEG C.

Importantly, preparation technique of the invention can be generally applicable to as glucagon have in water environment poor Or limited stability and solubility many other peptides delivering.Non-proton pole is utilized in fact, being clear that at present Peptide is configured to the non-aqueous solution of high concentration for this kind of important by or mixtures thereof property solvent, such as DMSO, NMP, ethyl acetate Peptide therapy be valuable delivery platform.In addition, preparation technique of the invention can be generally applicable to two in same solution The delivering of kind or more peptide.

Therefore, in one aspect, the present invention provides a kind of parenteral injection stabilization formulations, and the preparation includes: (a) peptide Or its salt, wherein the peptide has been dried in non-volatile buffer, and wherein dry peptide has and is approximately equal to peptide and exists The pH of pH in non-volatile buffer remembers；(b) aprotic polar solvent；Wherein the moisture content of preparation is less than 5%, and And wherein when dry peptide reconstructs in aprotic polar solvent, dry peptide holding is approximately equal to peptide in non-volatile buffer In pH pH memory.

On the other hand, the present invention provides a kind of parenteral injection stabilization formulations, and the preparation includes: (a) first Peptide or its salt, wherein first peptide is dried in the first non-volatile buffer, and the first wherein dry peptide Remember with the first pH for being approximately equal to pH of first peptide in the first non-volatile buffer；(b) the second peptide or its salt, Described in the second peptide dried in the second non-volatile buffer, and the second wherein dry peptide has and is approximately equal to the The 2nd pH of pH of the dipeptides in the second non-volatile buffer remembers；(c) aprotic polar solvent；The wherein moisture of preparation Content is less than 5%, wherein dry the first peptide holding is approximately equal to when the first dry peptide reconstructs in aprotic polar solvent The first pH of pH of first peptide in the first non-volatile buffer remembers, and wherein when the second dry peptide is in non-proton pole Property solvent in when reconstructing, the second dry peptide keeps the 2nd pH for being approximately equal to pH of second peptide in the second non-volatile buffer Memory.

On the other hand, the present invention provides a kind of parenteral injection stabilization formulations, and the preparation includes: peptide or its salt (such as its hydrochloride or acetate)；And aprotic polar solvent, wherein the moisture content of preparation is less than 5%.

Stabilization formulations described herein are to any with limited or poor stability or solubility in water environment The parenteral injection of peptide is useful.Therefore, in some embodiments, peptide (each of the first peptide and the second peptide) or its salt are selected from Glucagon, pramlintide, insulin, Leuprorelin, LHRH agonist, parathormone (PTH), dextrin, clostridium botulinum Toxin, hematide, 4 amyloid, cholecystokinin (cholecystikinin), conotoxin, gastrin inhibitory polypeptide, Insulin-Like are raw The long factor, somatotropin releasing factor, antimicrobial agent, glatiramer, glucagon-like-peptide-1 (GLP-1), GLP-1 excitement Agent, Exenatide, its analog and its mixture.In a preferred embodiment, peptide is that glucagon or pancreas are high Blood glucose element analog or glucagon peptide mimics.In another embodiment, peptide is parathormone.In another implementation In scheme, peptide is Leuprorelin.In still another embodiment, peptide is glatiramer.In yet another embodiment, the first peptide is Pulan Woods peptide, the second peptide are insulin.In still another embodiment, the first peptide is glucagon, and the second peptide is Exenatide.

Peptide (or every kind of peptide in the embodiment that preparation includes two or more peptides) and non-volatile buffer are mixed Merging is dried to dry Gly-His-Lys.Suitable non-volatile buffer includes but is not limited to that glycine buffer, citrate are slow Electuary, phosphate buffer and its mixture.In a preferred embodiment, non-volatile buffer is glycine buffer Agent.In another preferred embodiment, non-volatile buffer is the mixed of citrate buffer agent and phosphate buffer Close object.In some embodiments that wherein preparation includes two or more peptides, the first non-volatile buffer and second non- Volatile buffer is identical.In some embodiments that wherein preparation includes two or more peptides, first is non-volatile slow Electuary and the second non-volatile buffer are different.

In some preparations of the invention, peptide is mixed with non-volatile buffer and stabilisation excipient, is then dried to Dry Gly-His-Lys.The suitable excipient that stabilizes includes but is not limited to sugar, starch and its mixture.In some embodiments, Sugar is trehalose.In some embodiments, starch is hydroxyethyl starch (HES).In some embodiments, figuration is stabilized Agent with about 1% (w/v) to about 60% (w/v), from about 1% (w/v) to about 50% (w/v), from about 1% (w/v) to about 40% (w/ V), from about 1% (w/v) to about 30% (w/v), from about 1% (w/v) to about 20% (w/v), from about 5% (w/v) to about 60% (w/v), from about 5% (w/v) to about 50% (w/v), from about 5% (w/v) to about 40% (w/v), from about 5% (w/v) to about 30% (w/v), from about 5% (w/v) to about 20% (w/v), from about 10% (w/v) to about 60% (w/v), from about 10% (w/v) To about 50% (w/v), from about 10% (w/v) to about 40% (w/v), from about 10% (w/v) to about 30% (w/v), from about 10% (w/v) it is present in preparation to the amount of about 20% (w/v).In some embodiments that wherein preparation includes two kinds of peptides, first The second peptide in the first peptide and the second non-volatile buffer in non-volatile buffer all further includes stabilisation figuration Agent, the first peptide in the first non-volatile buffer stabilize excipient and the second peptide in the second non-volatile buffer It is identical to stabilize excipient.In other embodiments that wherein preparation includes two kinds of peptides, in the first non-volatile buffer The second peptide in first peptide and the second non-volatile buffer all further includes stabilisation excipient, the first non-volatile buffering The stabilisation excipient difference for stabilizing excipient and the second peptide in the second non-volatile buffer of the first peptide in agent.

Once one or more of peptides and non-volatile buffer or peptide, non-volatile buffer and stabilisation excipient It is dried to powder, dry Gly-His-Lys are dissolved or reconstructed in aprotic polar solvent.The example of aprotic polar solvent include but It is not limited to following solvent: dimethyl sulfoxide (DMSO), dimethylformamide (DMF), ethyl acetate, N-Methyl pyrrolidone (NMP), dimethyl acetamide (DMA), propylene glycol carbonate and its mixture.Dimethyl sulfoxide (DMSO), N- crassitude One or more of mixtures is especially preferred non-proton in ketone (NMP), ethyl acetate and DMSO, NMP and ethyl acetate Polar solvent.In a preferred embodiment, aprotic polar solvent is DMSO.In another preferred embodiment In, aprotic polar solvent is the mixture of DMSO and NMP.In yet another preferred embodiment, aprotic polar solvent is The mixture of DMSO and ethyl acetate.

In some embodiments, one or more of peptides aprotic polar solvent (such as dimethyl sulfoxide (DMSO), Dimethylformamide (DMF), ethyl acetate, N-Methyl pyrrolidone (NMP), dimethyl acetamide (DMA), propylene glycol carbonate Or mixtures thereof) mixture and reduce preparation freezing point cosolvent in reconstruct.In some embodiments, cosolvent makes The freezing point of preparation reduces at least about 5 DEG C, at least about 10 DEG C, at least about 15 DEG C or at least about 20 DEG C.In some embodiments, Cosolvent makes the freezing point of preparation be reduced to about 3 DEG C, about 2 DEG C, about 1 DEG C or about 0 DEG C or lower.In some embodiments, altogether Solvent is polar aprotic solvent.In preferred embodiments, cosolvent is selected from ethyl alcohol, propylene glycol (PG), glycerol and its mixing Object.In some embodiments, cosolvent is with about 10% (w/v) to about 50% (w/v), from about 10% (w/v) to about 40% (w/ V), from about 10% (w/v) to about 30% (w/v), from about 10% (w/v) to about 25% (w/v), from about 15% (w/v) to about 50% (w/v), from about 15% (w/v) to about 40% (w/v), from about 15% (w/v) to about 30% (w/v), from about 15% (w/v) Amount to about 25% (w/v) is present in preparation.

Importantly, preparation of the invention has considerably less residual moisture, therefore the peptide in this kind of preparation is kept for a long time Stablize.In preferred embodiments, the moisture content of invention formulation is less than about 4%, is preferably less than about 3%, is preferably smaller than About 2%, even more preferably less than about 1%, preferably less than about 0.5%, preferably less than about 0.25%, preferably less than about 0.2%, it is excellent Choosing is less than about 0.15% or preferably less than about 0.1%.In other preferred embodiments, the moisture content of invention formulation is From about 0.01% to about 4%, preferably from about 0.01% to about 3%, preferably from about 0.01% to about 2%, preferably from about 0.01% To about 1%, preferably from about 0.1% to about 4%, preferably from about 0.1% to about 3%, be preferably from about 0.1% to about 2%, preferably from About 0.1% to about 1%, 0.25% to about 4%, preferably from about 0.25% to about 3%, preferably from about 0.25% is preferably from about to about 2%, it is preferably from about 0.25% to about 1% or preferably from about 0.5% to about 1%.

When peptide is mixed with non-volatile buffer, non-volatile buffer is chosen so as to peptide to be had most in water environment The pH of big stability, maxima solubility and least degrading.Once peptide will have maximum stability, maxima solubility by drying Remember with the pH of least degrading, and pH memory can be retained when dissolving or reconstructing in aprotic polar solvent.Similarly, In preferred embodiments, the peptide in preparation can have about 2.0 to about 3.0 pH memory to ensure that maximum stability, maximum are molten Xie Du and least degrading.In other embodiments, the peptide in preparation can have about 3.0 to about 5.0 pH to remember to ensure most Big stability, maxima solubility and least degrading.In other embodiments, the peptide in preparation can have about 4.0 to about 5.0 PH remembers to ensure maximum stability, maxima solubility and least degrading.In other another embodiments, peptide can have about 4.0 to about 6.0 pH remembers to ensure maximum stability, maxima solubility and least degrading.In other another embodiments, Peptide can have about 6.0 to about 8.0 pH to remember to ensure maximum stability, maxima solubility and least degrading.Preparation wherein In some embodiments comprising two kinds of peptides, the first peptide is remembered with about 4.0 to about 6.0 pH to ensure maximum stability, most Big solubility and least degrading, the second peptide are remembered with about 1.5 to about 2.5 or about 6.0 to about 8.0 pH to ensure maximum stable Property, maxima solubility and least degrading.In some embodiments that wherein preparation includes two kinds of peptides, the first peptide has about 3.0 To about 5.0 pH memory to ensure maximum stability, maxima solubility and least degrading, the second peptide have about 1.5 to about 2.5 or About 6.0 to about 8.0 pH remembers to ensure maximum stability, maxima solubility and least degrading.Preparation includes two kinds wherein In other embodiments of peptide, the first peptide is remembered with about 2.0 to about 3.0 pH to ensure maximum stability, maxima solubility And least degrading, the second peptide is with about 4.0 to about 5.0 pH memory to ensure maximum stability, maxima solubility and minimum drop Solution.How to determine the Optimal pH for obtaining the peptide with maximum stability, maxima solubility and least degrading to this field skill Art personnel can be obvious.

One or more of peptides of any suitable dose can be prepared in stabilization formulations of the invention.Normally, peptide (or Every kind of peptide in the embodiment comprising two or more peptides) system is present in the amount of about 0.5mg/mL to about 100mg/mL In agent.In some embodiments, peptide is present in preparation with the amount of about 10mg/mL to about 60mg/mL.In other embodiments In, peptide is present in preparation with the amount of about 20mg/mL to about 50mg/mL.In still other embodiment, peptide is with about 5mg/mL Amount to about 15mg/mL is present in preparation.In other another embodiments, peptide is with about 0.5mg/mL to the amount of about 2mg/mL It is present in preparation.In other another embodiments, peptide is present in preparation with the amount of about 1mg/mL to about 50mg/mL.This Outside, the dosage of peptide can be changed according to peptide used and disease to be treated, the patient's condition or illness to technical staff can be it is aobvious and It is clear to.

In some embodiments, preparation of the invention also includes antioxidant.In other embodiments, preparation also wraps Containing chelating agent.In still other embodiment, preparation of the invention also includes preservative.

On the other hand, the present invention provide it is a kind of for treat can by object application to treatment, mitigate or pre- Anti- disease, illness or a effective amount of stable peptide formulations as described herein of the patient's condition are come disease, the illness treating, mitigate or prevent Or the method for the patient's condition.In some embodiments, disease, illness or the patient's condition are hypoglycemias.Disease, illness or the patient's condition wherein It is in some embodiments of hypoglycemia, method includes applying stabilization pancreas height of the invention a effective amount of to treatment hypoglycemia Blood glucose element preparation.In some embodiments, disease, illness or the patient's condition are diabetes.Disease, illness or the patient's condition are sugar wherein In some embodiments for urinating disease, method includes applying to the treatment stable insulin of the invention of anti-diabetic effective amount and general Blue woods peptide formulations.

It yet still another aspect, the present invention provides a kind of method for being used to prepare parenteral injection stabilization formulations, the method It include: that peptide and non-volatile buffer are dried to dry Gly-His-Lys；Dry Gly-His-Lys are reconstructed using aprotic polar solvent, from And stabilization formulations are prepared, wherein the moisture content of stabilization formulations is less than 5%.In some embodiments, dry Gly-His-Lys have It is approximately equal to the pH memory of pH of the peptide in non-volatile buffer, when dry Gly-His-Lys reconstruct in aprotic polar solvent, Dry Gly-His-Lys keep the pH memory for being approximately equal to pH of the peptide in non-volatile buffer.

In another aspect, the present invention is provided to treat disease, illness or the kit of the patient's condition, the kit includes: Stabilization formulations comprising one or more of peptides or its salt, wherein the peptide is dry in non-volatile buffer, and Wherein dry peptide has the pH memory for being approximately equal to pH of the peptide in non-volatile buffer；And aprotic polar solvent；Wherein Less than 5%, and wherein when dry peptide reconstructs in aprotic polar solvent, dry peptide is kept the moisture content of preparation It is approximately equal to the pH memory of pH of the peptide in non-volatile buffer；With the syringe for applying stabilization formulations to object.

In some embodiments, kit includes pancreas as described herein for treating hypoglycemia, stabilization formulations Glucagons preparation.In some embodiments, kit includes as described herein for treating diabetes, stabilization formulations Insulin and pramlintide preparation.In some embodiments, syringe is in an injection device, automatic injector assembly or pump It is some.In some embodiments, syringe premounting expires stabilization formulations.In some embodiments, kit further includes Bright book, wherein the application of the instructions direct stabilization formulations is to treat the object that this is needed.

According to described further below and appended claims, other objects of the present invention, feature and advantage are to this field skill Art personnel can be obvious.

Detailed description of the invention

After Fig. 1 shows the glucagon-glycine-trehalose for the freeze-drying that injection is dissolved in DMSO or NMP Plasma glucagon level.

Fig. 2 shows after the glucagon-glycine-trehalose for injecting the freeze-drying for being dissolved in DMSO or NMP Blood glucose level.

Specific embodiment

I. introduction

Peptide can be degraded by many different mechanism, including demidizate, oxidation, hydrolysis, disulfide interchange and racemic. In addition, water is conducive to the unfolding and the aggregation of irreversible molecule of protein molecule as plasticiser.Therefore, in order to provide The peptide formulations stable at any time under environment or physiological temp, it usually needs non-aqueous or substantially non-aqueous peptide formulations.

It is a kind of method for increasing drug peptide formulations stability that aqueous peptide formulations, which are condensed into dry powder formulations,.For example, peptide system Agent can be used various technologies and be dried, including spray drying, freeze-drying or freeze-drying and dehydration.Technology in this way obtains Dry powder peptide formulations show the stability under environment or even physiological temp at any time dramatically increased.

The present invention, which is based in part on stable peptide formulations (such as stable glucagon rescue preparation), can pass through head First by one of non-volatile buffer or more peptide (such as glucagon peptide) be freeze-dried at dry Gly-His-Lys and This is easily prepared to have now surprisingly been found that.Dry peptide has the pH of the peptide in the non-volatile buffer of wherein dry peptide Restriction " pH memory ".Once by drying, the Gly-His-Lys of generation, such as freeze-drying glucagon be just dissolved in it is non-proton In polar solvent, to form stabilization formulations, wherein the moisture content of preparation less than 5%, preferably smaller than 4%, less than 3%, it is small In 2%, less than 1%, less than 0.5%, less than 0.25%, less than 0.15% or less than 0.1%.When dry peptide is in non-proton pole Property solvent in when reconstructing, the pH memory for keeping it to limit, i.e., when reconstructing in aprotic polar solvent, the pH of peptide is approximately equal to The pH of peptide in the non-volatile buffer of wherein dry peptide.Advantageously, once being made, preparation (such as glucagon formulation) It is long-time stable, is ready to and can be used within the scope of certain temperature using without reconstructing.

Importantly, preparation technique of the invention can be generally applicable to as glucagon have in water environment poor Or limited stability and solubility many other peptides delivering.Non-proton pole is utilized in fact, being clear that at present Peptide is configured to the non-aqueous solution of high concentration for this kind of important by property solvent (such as or mixtures thereof DMSO, NMP, ethyl acetate) Therapeutic agent-treatment peptide be to have very valuable delivery platform.Stabilization formulations described herein advantageously improve peptide medicine Uniform delivery, and provide additional storage-stable with prevent it is relevant to degradation pathway aggregation, oxidation and hydrolysis.

In certain preferred aspects, stabilization formulations described herein save peptide medicine with stable form for a long time Object, for example, be enough to provide desired preparation shelf-life and using it is preceding without unacceptable levels of agent undergoes degradation when Between peptide medicine is saved in section.The property of desired injectable formulation is that they are non-aqueous and are non-reacted for peptide 's.In this kind of embodiment, injectable formulation can be directly stored in injection device itself.

Stable injectable formulation of the invention includes the treatment peptide of required dosage delivered (such as needed for drug therapy Dosage) and preferably small size.For example, in some embodiments, the peptide (such as glucagon) comprising therapeutic dose The volume of injectable formulation is at least about 1.0 microlitres (being the lower limit of the function of filling equipment), and more preferably from about 10 milliliters to about 250 microlitres.In certain preferred aspects, the peptide of therapeutic dose is delivered with small size by being used for according to the present invention The dosage of the treatment peptide (such as glucagon) of concentrated, stable form is completed in the suitable aprotic polar solvent of injection.

In addition, stabilization formulations of the invention are suitable for not needing dilutedly applying before the injection.Many, which is currently available that, to be controlled It treats peptide and vaccine product is produced in the form of solid particle to improve stability when on shelf.These preparations exist before the injection It is diluted in sterile water, in phosphate buffer solution or isotonic saline solution.Comparatively, in certain preferred embodiments of the invention In, the particle preparation processing technology (such as spray drying, freeze-drying etc.) that treatment peptide is generallyd use using medicinal industry is concentrated To prepare the preparation for injection.In preferred embodiments, the peptide medicine of therapeutic dose with non-by will wave first The peptide that hair property buffer (and optional additional component, such as stabilize excipient) is freeze-dried together, which is scattered in, to be had very Lack the dry powder of residual moisture content to obtain.Once being made, dry Gly-His-Lys are just dissolved in aprotic polar solvent, such as The mixture of DMSO, NMP, ethyl acetate or these solvents.Therefore, target according to the present invention, small size of the invention, stabilization Preparation be injected, inculcate or be administered in animal (such as human patients), and do not have to as major part reconstituted product required for Before the injection first dilute preparation.Similarly, in preferred embodiments, small size preparation of the invention is can to apply , and do not have to be diluted or reconstruct or cool down first.

II. it defines

For the disclosure, following term has the following meaning:

Term " therapeutic agent " includes peptide compounds together with its officinal salt.Useful salt is known to those skilled in the art , including the salt with inorganic acid, organic acid, inorganic base or organic base.In the present invention useful therapeutic agent be no matter individually or with Other drugs excipient or inert fraction combination, play desired, beneficial and usual pharmacology after applying to mankind or animal Those of effect peptide compounds.

Term " peptide ", " polypeptide " and/or " peptide compounds " refers to combined most about by amide (CONH) key The polymer of 80 amino acid residues.The analogs of any peptide compounds disclosed herein, derivative, agonist, antagonist and Officinal salt includes in these terms.The term further include there is the modification of D- amino acid, D- or L- configuration, derivatization Or the peptide and/or peptide compounds of non-naturally occurring amino acid and/or peptide mimics unit as a part of its structure.

Term " pharmaceutical acceptable carrier " indicates acceptable solvent, suspending agent or for delivering peptide compounds of the invention to lactation The carrier of animal such as animals or humans.In a currently preferred embodiment, pharmaceutical acceptable carrier is that aprotonic polar is molten Agent.

Term " aprotic polar solvent " indicates not containing acidic hydrogen and the polar solvent not as hydrogen bond donor.Non- matter The example of sub- polar solvent includes but is not limited to dimethyl sulfoxide (DMSO), dimethylformamide (DMF), ethyl acetate, N- first Base pyrrolidones (NMP), dimethyl acetamide (DMA) and propylene glycol carbonate.Term aprotic polar solvent also includes two kinds Or more aprotic polar solvent mixture, such as dimethyl sulfoxide (DMSO), dimethylformamide (DMF), acetic acid second The mixing of two or more in ester, N-Methyl pyrrolidone (NMP), dimethyl acetamide (DMA) and propylene glycol carbonate Object.

Term " pharmaceutically acceptable " ingredient, excipient or component be match with reasonable income/Hazard ratio be suitble to the mankind and/ Or animal is used without ingredient, excipient or the group of excessively unfavorable side effect (such as toxicity, irritation and allergic reaction) Point.

Term " chemical stability " indicates that, about therapeutic agent, form acceptable percentage passes through chemistry route, such as oxygen Change or hydrolyze generated catabolite.Specifically, if stored 1 year under expected product storage temperature (such as room temperature), Perhaps product stores 1 year under 30 DEG C/60% relative humidity or product stores one under 40 DEG C/75% relative humidity Month, no more than about 20% decomposition product is formed after preferably three months, it is considered that preparation is chemically stable.In some implementations In scheme, chemically stable preparation have be formed by after long-time storage under expected product storage temperature less than 20%, Less than 15%, less than 10%, less than 5%, less than 4%, less than the 3%, decomposition product less than 2% or less than 1%.

Term " physical stability " indicates to be formed about therapeutic agent aggregation (such as the dimer, three of acceptable percentage Aggressiveness and bigger form).Specifically, if storing 1 year or product under expected product storage temperature (such as room temperature) It is stored 1 year under 30 DEG C/60% relative humidity or product stores one month, preferably three under 40 DEG C/75% relative humidity No more than about 15% aggregation is formed after a month, it is considered that preparation is physically stable.In some embodiments, physics Stable preparation have be formed by after long-time storage under expected product storage temperature less than 20%, less than 15%, it is small In 10%, less than 5%, less than 4%, less than the 3%, aggregation less than 2% or less than 1%.

Term " stabilization formulations " indicate store at room temperature after two months be left at least about 65% it is chemically and physically stable Therapeutic agent.Particularly preferred preparation be wherein in the case where these conditions of storage are left at least about 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% chemically and physically stable those of therapeutic agent.It is especially excellent The stabilization formulations of choosing are not show those of degradation after (such as gamma-rays, β ray or electron beam) is irradiated in disinfection.

Phrase " substantially by ... form " is used herein to exclude to substantially change the base of the stabilization formulations of phrase meaning Any element of this property.

Term " bioavilability " is limited to the present invention to absorb therapeutic agent, such as the degree of peptide compounds from preparation.

Term " system " indicates that therapeutic agent is right about therapeutic agent, such as delivering or application of the peptide compounds to object With biological significant horizontal detectable in the blood plasma of elephant.

Term " control release " is limited to therapeutic agent at about one hour or longer, preferably 12 hours or longer for the present invention Time in so that blood (such as blood plasma) concentration is maintained in therapeutic domain, but released in poisoning concentration speed below It puts.

Term " parenteral injection " refers to therapeutic agent, such as peptide compounds are by animal, such as one layer of the mankind or more Under multilayer skin or mucous membrane or pass through animal, such as the mankind one or more layers skin or mucous membrane injection application.Mark Quasi- parenteral injection carries out in animal, such as the skin of human patients, in subcutaneous or intramuscular region.In some implementations In scheme, the injection of therapeutic agent as described herein is used for using deep position as target.

Term " treatment " refers to one kind or more of the disease that is applicable in of delay term or illness or this disease or illness The breaking-out of a variety of symptoms prevents or reverses one kind or more of the disease that is applicable in of term or illness or this disease or illness The development of a variety of symptoms, either mitigate or prevent the disease that is applicable in of term or illness or this disease or illness one kind or More kinds of symptoms.

Term " patient ", " object " or " individual " convertibly refers to mammal, such as the mankind or non-human mammal, Such as primate, dog, cat, ox, sheep, pig, horse, mouse, rat, hamster, rabbit or cavy.

III. stable peptide formulations

In one aspect, the present invention provides a kind of parenteral injection stabilization formulations.Advantageously, once being made, preparation is just It is long-time stable, is ready to and can be used within the scope of certain temperature using without reconstructing.In addition, this hair Bright stabilization formulations have the parenteral injection of any peptide in water environment with limited or poor stability or solubility With.In some embodiments, preparation of the invention for example increases preparation by preventing or reducing the formation of the aggregation of peptide Peptide physical stability.

In some embodiments, preparation includes: (a) peptide or its salt, wherein the peptide has been dried non-volatile In buffer, and wherein dry peptide has the pH memory for being approximately equal to pH of the peptide in non-volatile buffer；(b) non-matter Sub- polar solvent；Wherein the moisture content of preparation is less than 5%, and wherein when dry peptide reconstructs in aprotic polar solvent When, dry peptide keeps the pH memory for being approximately equal to pH of the peptide in non-volatile buffer.

In some embodiments, preparation includes: (a) the first peptide or its salt, wherein first peptide is non-first It is dried in volatile buffer, and the first wherein dry peptide is non-volatile slow first with first peptide is approximately equal to The first pH of pH in electuary remembers；(b) the second peptide or its salt, wherein second peptide is in the second non-volatile buffer It is middle to be dried, and the second wherein dry peptide has and is approximately equal to the second of pH of second peptide in the second non-volatile buffer PH memory；(c) aprotic polar solvent；Wherein the moisture content of preparation is less than 5%, wherein when the first dry peptide is in non-matter When reconstructing in sub- polar solvent, the first dry peptide keeps being approximately equal to the of pH of first peptide in the first non-volatile buffer One pH memory, and wherein when the second dry peptide reconstructs in aprotic polar solvent, the second dry peptide is kept about etc. Remember in the 2nd pH of pH of second peptide in the second non-volatile buffer.

In some embodiments, preparation is consists essentially of: (a) peptide or its salt, wherein the peptide is The peptide for being dried in non-volatile buffer, and wherein drying, which has, is approximately equal to pH of the peptide in non-volatile buffer PH memory；(b) aprotic polar solvent；Wherein the moisture content of preparation is less than 5%, and wherein when dry peptide is in non-matter When reconstructing in sub- polar solvent, dry peptide keeps the pH memory for being approximately equal to pH of the peptide in non-volatile buffer.

A. peptide

Stabilization formulations of the invention include one, two, three, four or more of peptide or its salt, analog and/or mix Close object.Be suitable for the peptide used in preparation of the invention (and its salt) include but is not limited to glucagon, pramlintide, Insulin, Leuprorelin, luteinizing hormone-releasing hormone (LRH) (LHRH) agonist, parathormone (PTH), dextrin, clostridium botulinum Toxin, 4 amyloid, cholecystokinin, gastrin inhibitory polypeptide, insulin-like growth factor, somatotropin releasing factor, resists hematide Anti-microbial agent, glatiramer, glucagon-like-peptide-1 (GLP-1), GLP-1 agonist, Exenatide, its analog and its Mixture.In some embodiments, peptide is hydrochloride or acetate.

In a preferred embodiment, peptide be glucagon or glucagon analogue or peptide mimics or its Salt (such as acetic acid glucagon).In another embodiment, peptide is parathormone.In yet another embodiment, peptide It is Leuprorelin.In still another embodiment, peptide is glatiramer.In other embodiments, peptide is dextrin or dextrin analogies (such as pramlintide).In still other embodiment, peptide is insulin or insulin analog (such as Lispro).One In a little embodiments, insulin or insulin analog formulations are low zinc or the preparation without zinc.

In some embodiments, preparation includes two kinds of peptides, wherein the first peptide is dextrin or dextrin analogies, the second peptide is Insulin or insulin analog.In some embodiments, the first peptide is pramlintide, and the second peptide is insulin.Some In embodiment, the first peptide is pramlintide, and the second peptide is the insulin preparation of low zinc or the insulin preparation without zinc.

In some embodiments, preparation includes two kinds of peptides, wherein the first peptide is glucagon, the second peptide is the high blood of pancreas Sugared element sample peptide -1 (GLP-1) or GLP-1 analog or agonist (such as Exenatide).In some embodiments, the first peptide It is glucagon, the second peptide is GLP-1.In some embodiments, the first peptide is glucagon, and the second peptide is Ai Saina Peptide.

The peptide of any suitable dose may be by preparation of the invention and be administered.Certainly, institute's applied dose according to Known facts change, such as the pharmacodynamic properties of specific peptide, salt or combinations thereof, age, health or the weight of object, symptom Person's character and degree, the metabolic characteristic of therapeutic agent and patient, the type of concurrent treatment, the frequency for the treatment of or desired effect.It is logical Chang Di, peptide (or in which the every kind of peptide of stabilization formulations comprising two or more peptides) is with about 0.5mg/mL to about 100mg/mL (example Such as from about 0.5,1,2,3,4,5,6,7,8,9,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90, 95 or 100mg/mL) amount be present in preparation.

In some embodiments, peptide is present in preparation with the amount of about 0.5mg/mL to about 60mg/mL.In some implementations In scheme, peptide is present in preparation with the amount of about 10mg/mL to about 50mg/mL.In other embodiments, peptide is with about 20mg/ The amount of mL to about 50mg/mL are present in preparation.In still other embodiment, peptide is with about 5mg/mL to about 15mg/mL's Amount is present in the preparation.In other another embodiments, peptide is present in system with the amount of about 0.5mg/mL to about 2mg/mL In agent.In addition, the dosage of peptide can change according to peptide used and disease to be treated, the patient's condition or illness to technical staff's meeting It is obvious.

In preferred embodiments, peptide is mixed with non-volatile buffer and optional stabilisation excipient, is then done It is dry at dry Gly-His-Lys.Stabilization formulations include two or more peptides embodiment in, every kind of peptide respectively with it is non-volatile Buffer and the mixing of optional stabilisation excipient, are then dried to dry Gly-His-Lys.Because peptide is to residual with asparagine The oxidation-sensitive of Ji Jianchu hydrolysis and methionine, so the use of non-volatile buffer valuably influences in preparation of the invention Chemical stability.As described in following further details, when pH is incoherent in aprotic polar solvent, The distribution of charges of peptide will affect its stability in aprotic polar solvent.The distribution of charges of peptide can be in aprotic polar solvent Previously in the function of the pH of the aqueous solution of wherein dry peptide, i.e., there is " pH note after dissolving or reconstruct in aprotic polar solvent Recall ".In order to obtain the desired distribution of charges for the peptide being dissolved in aprotic polar solvent, peptide is with molten in aprotonic polar It generates in agent and is dried in the buffered aqueous solution of the pH of optimum stabilization, optimal dissolution degree and least degrading.

Similarly, non-volatile buffer useful in preparation described herein is to establishment maximum stability, most The pH of big solubility and least degrading it is helpful those and have to residual moisture or water content is removed from dry Gly-His-Lys Those of help.Non-volatile buffer include will not by with as the water phase in drying/freeze-drying in a manner of those of vapor away Buffer.Suitable non-volatile buffer include for example glycine buffer, citrate buffer agent, phosphate buffer and Its mixture.In some embodiments, non-volatile buffer is glycine buffer or citrate buffer agent.Some In embodiment, non-volatile buffer is glycine buffer.In some embodiments, non-volatile buffer is sweet ammonia The mixture of acid buffering agent and citrate buffer agent.In some embodiments, non-volatile buffer is that citrate is slow The mixture of electuary and phosphate buffer.

B. excipient is stabilized

In certain preferred aspects, preparation described herein can be stabilized further to ensure wherein to be incorporated to Peptide stability.In some embodiments, the stability of injectable formulation is by will be one or more of before dry peptide Kind stabilizer or stabilisation excipient, which cover in preparation, to be enhanced.In other embodiments, the stabilization of injectable formulation Property by using stabilizer or stabilizing excipient in aprotic polar solvent and reconstructing dry peptide and enhance.

In some embodiments, stabilizing excipient is cryoprotector.As shown in following embodiment chapters and sections, freezing is protected Agent is protected, such as the addition of trehalose protects peptide formulations of the invention to prevent unstability relevant to freeze-thaw circulation.This Outside, have been shown that the addition of cryoprotector trehalose also promotes the defrosting of the enhancing of the peptide formulations of freezing herein.The enhancing Defrosting property be it is unexpectedly advantageous, especially in the case where emergency medical, such as serious hypoglycemic episodes, Middle peptide formulations of the invention are to freeze and need application rapidly.Therefore, in another aspect of the present invention, stabilization formulations have There are improved freeze-thaw stability, the Thawing Rate of raising and/or improved defrosting form.

In some embodiments, it stabilizes excipient and is selected from sugar, starch, sugar alcohol and its mixture.It is assigned for stabilizing The example of the suitable sugar of shape agent includes but is not limited to trehalose, glucose, sucrose etc..For stabilizing the suitable of excipient The example of starch includes but is not limited to hydroxyethyl starch (HES).The example of suitable sugar alcohol for stabilizing excipient includes But it is not limited to mannitol and sorbierite.In some embodiments, at least one to stabilize excipient (such as sugar, starch, sugar alcohol Or mixtures thereof) stability of peptide during freeze-thaw can be enhanced, it improves the Thawing Rate of preparation or improves preparation Defrosting form.

In some embodiments, stabilize excipient with about 1% (w/v) to about 60% (w/v), from about 1% (w/v) to About 50% (w/v), from about 1% (w/v) to about 40% (w/v), from about 1% (w/v) to about 30% (w/v), from about 1% (w/v) To about 20% (w/v), from about 5% (w/v) to about 60% (w/v), from about 5% (w/v) to about 50% (w/v), from about 5% (w/ V) to about 40% (w/v), from about 5% (w/v) to about 30% (w/v), from about 5% (w/v) to about 20% (w/v), from about 10% (w/v) to about 60% (w/v), from about 10% (w/v) to about 50% (w/v), from about 10% (w/v) to about 40% (w/v), from about 10% (w/v) to about 30% (w/v), from about 10% (w/v) to about 20%, the amount of (w/v) is present in preparation.In some implementations In scheme, stabilize excipient with about 1%, about 5%, about 10%, about 15%, about 20%, about 25%, about 30%, about 35%, about 40%, about 45%, about 50%, about 55% or about 60% (w/v) amount is present in preparation.

In the preparation comprising two or more peptides, in some embodiments, every kind of peptide is comprising non-volatile slow It is dried in the mixture of electuary and stabilisation excipient.The mixture of non-volatile buffer and stabilisation excipient is for every Kind of peptide can be identical, or non-volatile buffer for drying every kind of peptide, stabilize excipient or non-volatile slow Both electuary and stabilisation excipient can be different.In other embodiments, some but and not all peptide can be It is dried in mixture comprising non-volatile buffer and stabilisation excipient, and other peptides can be stabilized being not present It is dried in the non-volatile buffer of excipient.

In some embodiments, preparation also includes additional stabilizer, and the stabilizer includes such as antioxidant, chela Mixture and preservative.The example of suitable antioxidant includes but is not limited to ascorbic acid, cysteine, methionine, single thio Glycerol, sodium thiosulfate, sulphite, BHT, BHA, ascorbyl palmitate, propylgallate, N- acetyl group-L- half Cystine (NAC) and vitamin E.The example of suitable chelating agent includes but is not limited to EDTA, tartaric acid and its salt, glycerol and lemon Lemon acid and its salt.The example of suitable preservative includes but is not limited to benzylalcohol, methyl p-hydroxybenzoate, P-hydroxybenzoic acid third Ester and its mixture.

In some embodiments, preparation also includes stabilisation polyalcohol.Such preparation and material are for example special in the U.S. Benefit 6,290,99 and 6,331,310 is described, your content of each piece of the patent is incorporated herein by reference.

C. the reconstruct of dry peptide

In stabilization formulations of the invention, once peptide and non-volatile buffer (and optional stabilisation excipient) are done It is dry that at powder, or wherein, preparation includes two or more peptides, once every kind of peptide and non-volatile buffer are (respectively also optional Ground includes to stabilize excipient) it is dried to powder, dry Gly-His-Lys are dissolved or are reconstructed in aprotic polar solvent.Some In embodiment, aprotic polar solvent is selected from dimethyl sulfoxide (DMSO), dimethylformamide (DMF), ethyl acetate, N- first Base pyrrolidones (NMP), dimethyl acetamide (DMA), propylene glycol carbonate and its mixture.In some embodiments, non- Proton polar solvent is dimethyl sulfoxide (DMSO), dimethylformamide (DMF), ethyl acetate, N-Methyl pyrrolidone (NMP), the mixture of two or more in dimethyl acetamide (DMA) and propylene glycol carbonate.Dimethyl sulfoxide (DMSO), dimethylformamide (DMF) and ethyl acetate are particularly preferred aprotic polar solvents, each is all biology Compatible solvent.In some embodiments, aprotic polar solvent is dimethyl sulfoxide (DMSO).In other embodiments In, aprotic polar solvent is N-Methyl pyrrolidone (NMP).In other embodiments, aprotic polar solvent is diformazan The mixture of base sulfoxide (DMSO) and N-Methyl pyrrolidone (NMP).In still other embodiment, aprotic polar solvent It is the mixture of dimethyl sulfoxide (DMSO) and ethyl acetate.In some embodiments, dry Gly-His-Lys are " pure ", i.e., It is reconstructed in aprotic polar solvent without cosolvent.In some embodiments, dry Gly-His-Lys are including aprotonic polar It is reconstructed in solvent but the not aqueous solution as cosolvent.

In some embodiments, preparation of the invention also includes at least one cosolvent for reducing the freezing point of preparation. Cosolvent is polar aprotic solvent.In a certain embodiment, cosolvent is selected from ethyl alcohol, propylene glycol (PG), glycerol and its mixing Object.In some embodiments, cosolvent is ethyl alcohol or propylene glycol (PG).Cosolvent can arrive about 50% with about 10% (w/v) (w/v), for example, about 10%, about 15%, about 20%, about 25%, about 30%, about 35%, about 40%, about 45% or about 50% (w/ V) amount is present in preparation.In some embodiments, cosolvent with from about 10% (w/v) to about 50% (w/v), from about 10% (w/v) to about 40% (w/v), from about 10% (w/v) to about 30% (w/v), from about 10% (w/v) to about 25% (w/v), From about 15% (w/v) to about 50% (w/v), from about 15% (w/v) to about 40% (w/v), from about 15% (w/v) to about 30% (w/v), from about 15% (w/v) to about 25%, the amount of (w/v) is present in preparation.In some embodiments, and not comprising altogether Other same preparation of solvent is compared, at least one cosolvent make preparation freezing point reduce at least 5 DEG C, at least 10 DEG C, at least 15 DEG C, at least 20 DEG C or more of temperature.In some embodiments, at least one cosolvent is reduced to the freezing point of preparation About 3 DEG C, about 2 DEG C, about 1 DEG C or about 0 DEG C or lower.

D. moisture content

Preparation of the invention has considerably less residual moisture, therefore the peptide in this kind of preparation keeps stable for a long time.? In some embodiments, stabilization formulations of the invention have the moisture content less than 5%.In some embodiments, moisture contains Amount less than 4%, less than 3%, less than 2%, less than 1%, less than 0.5%, less than 0.4%, less than 0.3%, less than 0.25%, it is small In 0.2%, less than 0.15%, less than 0.1%, less than 0.075%, less than 0.05%, less than 0.025% or less than 0.01%. In some preferred embodiments, the moisture content of invention formulation from about 0.01% to about 5%, from about 0.01% to about 4%, from about 0.01% to about 3%, from about 0.01% to about 2%, from about 0.01% to about 1.5% or from about 0.01% to about 1%.In other preferred embodiments, the moisture content of invention formulation from about 0.1% to about 5%, from about 0.1% to about 4%, from about 0.1% to about 3%, from about 0.1% to about 2%, from about 0.1% to about 1.5% or from about 0.1% to about 1%.? In other preferred embodiments, the moisture content of invention formulation from about 0.25% to about 5%, from about 0.25% to about 4%, From about 0.25% to about 3%, from about 0.25% to about 2% or from about 0.25% to about 1.5%.In still other preferred implementation In scheme, the moisture content of preparation is from about 0.5% to about 1%.

E.pH memory

" the pH memory " of peptide is generated after dry peptide in buffered aqueous solution (such as in non-volatile buffer) Distribution of charges (protonation state).It the protonation state of peptide and is thus produced in the nonaqueous solvents of very low moisture or zero moisture Raw solubility and stability is influenced by the pH of the aqueous solution of dry propetide and used drying condition.When peptide wherein Acid and basic component is all when being dried in non-volatile buffer substance, and the pH memory of dry peptide can be approximately equal to peptide non- PH in volatile buffer.See, for example, Enzymatic Reactions in Organic Media, Koskinen, And Klibanov, A.M., eds., Springer (1996) A.M.P..In addition, wherein dry peptide buffered aqueous solution (such as Non-volatile buffer) pH can optimize with generate for after dry peptide in aprotic polar solvent reconstruct when lead The pH of the peptide of best stabilized peptide, maxima solubility and least degrading is caused to remember.Because aprotic polar solvent is not commutative Proton, so when dry peptide is reconfigured in aprotic polar solvent, it is molten that the preparation of reconstruct can keep Optimal pH to remember Xie Du and stability characteristic.

For the stabilization formulations comprising two kinds, three kinds, four kinds or more peptides, dry every kind of peptide so that its have in order to Maxima solubility, maximum stability and least degrading and optimize the pH of its own memory.In the formulation in the presence of two kinds or more In the embodiment of a variety of peptides, the pH of the first peptide memory range can remember range section Chong Die (such as the with the pH of the second peptide The pH memory of one peptide can be remembered from the pH of about 4.0 to about 6.0, second peptides can be from about 6.0 to about 8.0) or the pH of the first peptide Remember range can not with the pH of the second peptide remember range it is Chong Die (such as the first peptide pH remember can from about 4.0 to about 5.0, The pH memory of second peptide can be from about 6.0 to about 8.0).

The pH memory of peptide can measure in several ways.In a method, the pH of peptide memory will be by that will dry Peptide is reconfigured in non-buffered water and utilization pH indicator, such as the pH of pH test paper or the peptide of the pH electrode measurement of calibration reconstruct Measurement.Alternatively, for the peptide reconstructed in the aprotic polar solvent (such as DMSO), the pH memory of peptide can be by non- At least 20% water is added in proton polar solvent (such as DMSO) and measures pH using pH indicator to determine.See, for example, Baughman and Kreevoy, " Determination of Acidity in 80%Dimethyl Sulfoxide-20% Water, " Journal of Physical Chemistry, 78 (4): 421-23 (1974).Aprotic polar solvent-aqueous solution In the measurement of pH may need small correction (i.e. according to above-mentioned Baughman and Kreevoy are no more than 0.2pH unit).

In some embodiments, the pH memory of peptide relative to doing wherein when reconstructing in aprotic polar solvent when peptide In the case that the deviation of the pH of peptide is in a pH unit range in the non-volatile buffer of dry peptide, dry peptide has about etc. The pH of peptide is (thus, for example in the non-volatile of dry peptide wherein in the non-volatile buffer in wherein dry peptide The peptide that pH is 3.0 in buffer, when peptide reconstructs in aprotic polar solvent, the pH of the peptide from 2.0 to 4.0 memory can be In one pH unit, so that the pH memory of dry peptide can be about equal to the pH of peptide in non-volatile buffer).In some implementations In scheme, when peptide reconstructs in aprotic polar solvent, the pH of peptide remembers the non-volatile buffering relative to dry peptide wherein In the case that the deviation of the pH of peptide is in half of pH unit range in agent, dry peptide, which has, to be approximately equal in the non-of wherein dry peptide In volatile buffer peptide pH (thus, for example in the non-volatile buffer of dry peptide wherein pH be 3.0 Peptide, when peptide reconstructs in aprotic polar solvent, the pH of the peptide from 2.5 to 3.5 memory can be in half of pH unit, thus The pH memory of dry peptide can be about equal to the pH of peptide in non-volatile buffer).

In some embodiments, the peptide of stabilization formulations is remembered with about 1.5 to about 2.5 pH.In some embodiments In, the peptide of stabilization formulations is remembered with about 2.0 to about 3.0 pH.In some embodiments, the peptide of stabilization formulations has about 2.0 to about 4.0 pH memory.In some embodiments, the peptide of stabilization formulations is remembered with about 2.5 to about 4.0 pH.One In a little embodiments, the peptide of stabilization formulations is remembered with about 2.5 to about 3.5 pH.In some embodiments, stabilization formulations Peptide is remembered with about 3.0 to about 5.0 pH.In some embodiments, the peptide of stabilization formulations has about 3.0 to about 4.5 pH Memory.In some embodiments, the peptide of stabilization formulations is remembered with about 4.0 to about 5.0 pH.In some embodiments, The peptide of stabilization formulations is remembered with about 4.0 to about 6.0 pH.In some embodiments, the peptide of stabilization formulations has about 6.0 to arrive About 8.0 pH memory.In some embodiments, the peptide of stabilization formulations is remembered with about 6.5 to about 8.0 pH.In some realities It applies in scheme, the peptide of stabilization formulations is remembered with about 6.5 to about 7.5 pH.In some embodiments, the peptide tool of stabilization formulations There is about 6.5 to about 9.0 pH memory.In some embodiments, the peptide of stabilization formulations is remembered with about 7.0 to about 9.0 pH. In some embodiments, the peptide of stabilization formulations is remembered with about 7.5 to about 9.0 pH.In some embodiments, stablize system The peptide of agent is remembered with about 8.0 to about 10.0 pH.In some embodiments, the peptide of stabilization formulations has about 8.5 to arrive about 10.0 pH memory.In some embodiments, the pH memory of peptide can be about 1.5, about 2.0, about 2.5, about 3.0, about 3.5, About 4.0, about 4.5, about 5.0, about 5.5, about 6.0, about 6.5, about 7.0, about 7.5, about 8.0, about 8.5, about 9.0, about 9.5 or about 10.0。

F. exemplary formulation

In some specific embodiments, the present invention provides a kind of stable glucagon formulation, the high blood of pancreas Sugared element preparation includes: glucagon peptide or its salt (such as acetic acid glucagon), wherein the glucagon exists It is done in non-volatile buffer selected from glycine buffer, citrate buffer agent, phosphate buffer and its mixture It is dry, and wherein dry glucagon is remembered with from about 2.0 to about 3.0 pH；With selected from dimethyl sulfoxide (DMSO), The aprotic polar solvent of ethyl acetate, N-Methyl pyrrolidone (NMP) and its mixture；Wherein the moisture content of preparation is less than 5%, and wherein when dry glucagon reconstructs in aprotic polar solvent, dry glucagon is kept about 2.0 to about 3.0 pH memory.In some embodiments, glucagon with from about 0.5mg/mL to about 100mg/mL or from The amount of about 1mg/mL to about 50mg/mL are present in preparation.In some embodiments, the moisture content of preparation be less than about 2%, Less than about 1%, less than about 0.5% or less than about 0.01%.In some embodiments, the moisture content of preparation is from about 0.01% To about 3%.In some embodiments, preparation also includes selected from sugared (such as trehalose), starch (such as hydroxyethyl starch And its stabilisation excipient of mixture (HES)).Stabilizing excipient can be with from about 1% (w/v) to about 60% (w/v) Amount is present in preparation.In some embodiments, preparation includes also the cosolvent for reducing the freezing point of preparation, wherein described total Solvent is selected from ethyl alcohol, propylene glycol, glycerol and its mixture.Cosolvent can be with the amount of from about 10% (w/v) to about 50% (w/v) It is present in preparation.

In other specific embodiments, the present invention provides a kind of stable glucagon formulation, the high blood of pancreas Sugared element preparation includes: glucagon or its salt (or glucagon analogue or peptide mimics)；Be selected from dimethyl sulfoxide (DMSO), the aprotic polar solvent of N-Methyl pyrrolidone (NMP) and its mixture；Wherein the moisture content of preparation is less than 3%.In preferred embodiments, the moisture content of preparation less than 2%, less than 1%, less than 0.5% or less than 0.25%.? In other preferred embodiments, moisture content from 0.25% to about 3%, preferably from about 0.25% to about 2%, more preferably from about 0.25% to about 1.5%, it is more preferably from about 0.25% to about 1%, more preferably from about 0.5% to about 1%.

In other specific embodiments, stable glucagon formulation also includes non-volatile buffer and stabilization Change excipient, the stabilisation excipient is sugar, starch or sugar alcohol.For example, in some embodiments, glucagon formulation It also include glycine buffer and mannitol perhaps citrate buffer agent and mannitol or phosphate buffer and sweet dew Alcohol.In some embodiments, glucagon formulation also includes glycine buffer and trehalose or Citrate buffer Agent and trehalose or phosphate buffer and trehalose.In these embodiments, aprotic polar solvent can be Or mixtures thereof DMSO, NMP, ethyl acetate.For example, in a preferred embodiment, aprotic polar solvent is DMSO, Non-volatile buffer is glycine buffer.In another preferred embodiment, aprotic polar solvent is DMSO, non-to wave Hair property buffer is citrate buffer agent, and stabilizing excipient is mannitol.It is non-proton in other preferred embodiment Polar solvent is DMSO, and non-volatile buffer is glycine buffer, and stabilizing excipient is trehalose.Another preferred In embodiment, aprotic polar solvent is DMSO, and non-volatile buffer is citrate buffer agent.Another preferred real It applies in scheme, aprotic polar solvent is NMP, and non-volatile buffer is glycine buffer.

In other specific embodiments, the present invention provides a kind of stabilization formulations, and the stabilization formulations include: the high blood of pancreas Sugared element or its salt (such as acetic acid glucagon), wherein the glucagon has been dried in non-volatile buffer In, and wherein dry glucagon has and is approximately equal to glucagon slow selected from glycine buffer, citrate PH in the non-volatile buffer of electuary, phosphate buffer and its mixture, wherein the pH note of dry glucagon Recall from about 2.0 to about 3.0；With selected from dimethyl sulfoxide (DMSO), N-Methyl pyrrolidone (NMP), ethyl acetate and its mixing The aprotic polar solvent of object；Wherein the moisture content of preparation is less than 1%, and wherein when dry glucagon is in non-matter When reconstructing in sub- polar solvent, dry glucagon holding is approximately equal to pH of the glucagon in non-volatile buffer PH memory.In some embodiments, glucagon formulation also includes the cosolvent for reducing the freezing point of preparation, wherein institute It states cosolvent and is selected from ethyl alcohol, propylene glycol, glycerol and its mixture.In some embodiments, glucagon formulation also includes Stabilisation excipient selected from sugar, starch and its mixture.In some embodiments, glucagon with from about 1mg/mL to The amount of about 50mg/mL is present in preparation.

In other specific embodiments, the present invention provides a kind of stable glucagon formulation, the high blood of pancreas Sugared element preparation is consists essentially of: glucagon peptide or its salt (such as acetic acid glucagon), wherein described Glucagon is waved selected from glycine buffer, citrate buffer agent, phosphate buffer and its non-of mixture It is dried in hair property buffer, and wherein dry glucagon is remembered with from about 2.0 to about 3.0 pH；Be selected from Dimethyl sulfoxide (DMSO), ethyl acetate, N-Methyl pyrrolidone (NMP) and its mixture aprotic polar solvent；Wherein The moisture content of preparation is dried less than 5%, and wherein when dry glucagon reconstructs in aprotic polar solvent Glucagon keep about 2.0 to about 3.0 pH remember.

In other other specific embodiments, the present invention provides a kind of stable glucagon formulation, the pancreas Glucagons preparation is consists essentially of: glucagon peptide or its salt (such as acetic acid glucagon), wherein The glucagon is selected from glycine buffer, citrate buffer agent, phosphate buffer and its mixture It is dried in non-volatile buffer, and wherein dry glucagon is remembered with from about 2.0 to about 3.0 pH；With And the cosolvent of aprotic polar solvent and the freezing point for reducing preparation, wherein the aprotic polar solvent is selected from dimethyl Asia Sulfone (DMSO), ethyl acetate, N-Methyl pyrrolidone (NMP) and its mixture, wherein the cosolvent is selected from ethyl alcohol, the third two Alcohol, glycerol and its mixture.Wherein the moisture content of preparation is less than 5%, and wherein when dry glucagon is in non-matter When reconstructing in sub- polar solvent, dry glucagon keeps about 2.0 to about 3.0 pH memory.

In other specific embodiments, the present invention provides a kind of stable glucagon formulation, the high blood of pancreas Sugared element preparation is consists essentially of: glucagon peptide or its salt (such as acetic acid glucagon), wherein described Glucagon is waved selected from glycine buffer, citrate buffer agent, phosphate buffer and its non-of mixture It is dried in hair property buffer, stabilizes excipient and be selected from carbohydrate (such as trehalose), starch (such as hydroxyethyl starch (HES)) And its mixture, and wherein dry glucagon is remembered with from about 2.0 to about 3.0 pH；It is sub- with dimethyl is selected from Sulfone (DMSO), ethyl acetate, N-Methyl pyrrolidone (NMP) and its mixture aprotic polar solvent；The wherein water of preparation Divide content less than 5%, and wherein when dry glucagon reconstructs in aprotic polar solvent, the high blood of dry pancreas Sugared element keeps about 2.0 to about 3.0 pH memory.

In other other specific embodiments, the present invention provides a kind of stabilization formulations, and the stabilization formulations include: pancreas Island element, wherein the insulin is being selected from glycine buffer, citrate buffer agent, phosphate buffer and its mixing It is dried in the non-volatile buffer of the first of object, and wherein dry insulin has and is approximately equal to insulin and non-waves first The first pH memory of pH in hair property buffer, wherein the first pH memory from about 1.5 to about 2.5 or from about 6.0 to about 8.0；It is general Blue woods peptide, wherein the pramlintide selected from glycine buffer, citrate buffer agent, phosphate buffer and its It is dried in the non-volatile buffer of the second of mixture, and wherein dry pramlintide has and is approximately equal to pramlintide and exists The 2nd pH of pH in second non-volatile buffer remembers, wherein the 2nd pH memory from about 3.0 to about 5.0 or from about 4.0 to About 6.0；With the non-proton pole selected from dimethyl sulfoxide (DMSO), N-Methyl pyrrolidone (NMP), ethyl acetate and its mixture Property solvent；Wherein the moisture content of preparation is less than 1%, wherein when dry insulin reconstructs in the aprotic polar solvent When, dry insulin keeps the first pH memory for being approximately equal to pH of the insulin in the first non-volatile buffer, and its In when dry pramlintide reconstructs in the aprotic polar solvent, dry pramlintide holding is approximately equal to Pulan woods The 2nd pH of pH of the peptide in the second non-volatile buffer remembers.In some embodiments, insulin and pramlintide system Agent also includes the cosolvent for reducing the freezing point of preparation, wherein the cosolvent is selected from ethyl alcohol, propylene glycol, glycerol and its mixing Object.In some embodiments, the Pulan in the insulin and the second non-volatile buffer in the first non-volatile buffer One or both of woods peptide is also comprising the stabilisation excipient selected from sugar, starch and its mixture.In some embodiments, First non-volatile buffer and the second non-volatile buffer are identical.In some embodiments, the first non-volatile buffering Agent is different with the second non-volatile buffer.In some embodiments, each of insulin and pramlintide all with from The amount of about 1mg/mL to about 50mg/mL are present in preparation.In some embodiments, the first pH memory is from about 1.5 to about 2.5.In some embodiments, the first pH remembers from about 6.0 to about 8.0.In some embodiments, the 2nd pH memory is from about 3.0 to about 5.0.In some embodiments, the 2nd pH remembers from about 4.0 to about 6.0.In some embodiments, the first pH Memory is remembered from the about 1.5 to about 2.5, and the 2nd pH from about 3.0 to about 5.0.

IV. the method for stable peptide formulations is prepared

It yet still another aspect, the present invention provides a kind of method for being used to prepare parenteral injection stabilization formulations.In some realities It applies in scheme, method includes: that peptide and non-volatile buffer are dried to dry Gly-His-Lys；It is reconstructed using aprotic polar solvent Dry Gly-His-Lys, to prepare stabilization formulations, wherein the moisture content of stabilization formulations is less than 5%.In some embodiments, it does Dry Gly-His-Lys have the pH memory for being approximately equal to pH of the peptide in non-volatile buffer, when dry Gly-His-Lys are molten in aprotonic polar When reconstructing in agent, dry Gly-His-Lys keep the pH memory for being approximately equal to pH of the peptide in non-volatile buffer.

The method for being used to prepare stabilization formulations can be used for preparing in water environment with limited or poor stability or Any peptide of solubility.Be suitable for the peptide used in preparation of the invention (or its salt) include but is not limited to glucagon, Insulin, Leuprorelin, luteinizing hormone-releasing hormone (LRH) (LHRH) agonist, pramlintide, parathormone (PTH), dextrin, Botulin toxin, conotoxin, hematide, 4 amyloid, cholecystokinin, gastrin inhibitory polypeptide, insulin-like growth factor, life Long releasing factor, antimicrobial agent, glatiramer, glucagon-like-peptide-1 (GLP-1), GLP-1 agonist, Ai Saina Peptide and the like.In a preferred embodiment, peptide is glucagon or glucagon analogue or peptide mould Quasi- object.In another embodiment, peptide is parathormone.In yet another embodiment, peptide is Leuprorelin.Another real It applies in scheme, peptide is glatiramer.

In some embodiments, two kinds, three kinds, four kinds or more peptides are formulated into stabilization formulations.Two kinds wherein Or more peptide be formulated into the embodiment in stabilization formulations, every kind of peptide is individually dried to drying with non-volatile buffer Gly-His-Lys, every kind of dry Gly-His-Lys, which have, to be approximately equal to the pH memory of pH of the peptide in non-volatile buffer (i.e. the first peptide has It is approximately equal to the first pH memory of pH of first peptide in the first non-volatile buffer, the second peptide, which has, is approximately equal to the second peptide the The 2nd pH of pH in two non-volatile buffers remembers).The Gly-His-Lys of two or more dryings utilize aprotic polar solvent Reconstruct, so that stabilization formulations are made, wherein the moisture content of the stabilization formulations is less than 5%, and when dry Gly-His-Lys are non- When being reconstructed in proton polar solvent, wherein every kind of dry Gly-His-Lys keep the pH for being approximately equal to pH of the peptide in non-volatile buffer Memory (i.e. when the first dry peptide reconstructs in aprotic polar solvent, the first dry peptide keeps the first pH memory, and When the second dry peptide reconstructs in aprotic polar solvent, the second dry peptide keeps the 2nd pH memory).

In the method for being used to prepare stable peptide formulations, suitable non-volatile buffer includes such as glycine buffer Agent, citrate buffer agent, phosphate buffer and its mixture.In some embodiments, non-volatile buffer is sweet Propylhomoserin buffer or citrate buffer agent.In some embodiments, non-volatile buffer be citrate buffer agent and The mixture of phosphate buffer.In some embodiments, peptide and non-volatile buffer and stabilisation excipient (such as Or mixtures thereof sugar, starch) the two mixing, then it is dried to dry Gly-His-Lys.In other embodiments, figuration will be stabilized Agent (such as or mixtures thereof sugar, starch, sugar alcohol) is added to the peptide reconstructed in aprotic polar solvent.In some embodiments In, stabilize excipient with from about 1% (w/v) to about 60% (w/v), for example, about 1%, about 5%, about 10%, about 15%, about 20%, about 25%, about 30%, about 35%, about 40%, about 45%, about 50%, about 55% or about 60% (w/v) amount is present in In preparation.In some embodiments, stabilizing excipient is trehalose.In some embodiments, stabilizing excipient is HES.In some embodiments, stabilizing excipient is trehalose and the mixture of HES.

As explained above, when peptide is mixed with non-volatile buffer, non-volatile buffer is chosen so as to peptide There is maximum stability/least degrading pH in water environment.Once peptide will have maximum stability/minimum drop by drying The pH of solution remembers, and can retain pH memory when dissolving or reconstructing in aprotic polar solvent.Similarly, in a reality It applies in scheme, the pH of non-volatile buffer remembers dry Gly-His-Lys with about 2 to about 3 pH.In another embodiment party In case, the pH of non-volatile buffer remembers dry Gly-His-Lys with about 4 to about 6 pH.In yet another embodiment, non- The pH of volatile buffer remembers dry Gly-His-Lys with about 4 to about 5 pH.In yet another embodiment, non-volatile The pH of buffer remembers dry Gly-His-Lys with about 6 to about 8 pH.

Once peptide and non-volatile buffer (and optional other components, such as it is added to peptide and non-volatile before it is dried Stabilisation excipient in property buffer) it is dried to powder, dry Gly-His-Lys are molten in aprotonic polar as described herein Dissolution or reconstruct in agent (such as dimethyl sulfoxide (DMSO), N-Methyl pyrrolidone (NMP), ethyl acetate and its mixture). In some embodiments, aprotic polar solvent is dimethyl sulfoxide (DMSO).In other embodiments, aprotonic polar Solvent is N-Methyl pyrrolidone (NMP).

In some embodiments, the step of reconstructing dry Gly-His-Lys is including the use of comprising aprotic polar solvent and reduction The peptide that the mixture of the cosolvent of the freezing point of preparation dilutes or reconstruct is dry.In some embodiments, cosolvent is selected from second Alcohol, propylene glycol, glycerol and its mixture.In some embodiments, cosolvent is with from about 10% (w/v) to about 50% (w/v), For example, about 10%, about 15%, about 20%, about 25%, about 30%, about 35%, about 40%, about 45% or about 50% (w/v) amount It is present in preparation.

Preparation of the invention has considerably less residual moisture, therefore the peptide in this kind of preparation keeps stable for a long time.? In preferred embodiment, the moisture contents of stabilization formulations prepared by the method for the present invention less than 4%, less than 3%, be less than 2%, less than 1%, less than 0.5%, less than 0.4%, less than 0.3%, less than 0.25%, less than 0.2%, less than 0.15%, it is small In 0.1%, less than 0.075%, less than 0.05%, less than 0.025% or less than 0.01%.

In preceding method, the drying of peptide compounds and non-volatile buffer (and optional stabilisation excipient) makes It is realized with spray drying technology, Freeze Drying Technique or freeze drying technology.Spray drying technology is many to those skilled in the art Well known.Spray drying includes that solvent includes the molten of one or more of solids (such as therapeutic agent) after volatilizing from drop The step of liquid is atomized via spray nozzle turntable or other devices.The property of the powder of generation be include initial solute concentration, it is produced Drop size distribution and solute remove rate several variables function.The rate that generated particle is removed according to solvent It may include the aggregation for the primary particle being made of crystal and/or amorphous solid with condition.

Be used to prepare large biological molecule, for example, protein, oligopeptides, high molecular weight polysaccharide and nucleic acid superfines spray The dry method of mist is for example described in United States Patent (USP) 6,051,256.Being freeze-dried program is many institutes in the art Known, and be for example described in United States Patent (USP) 4,608, No. 764 and United States Patent (USP) 4,848,094.Spray-freeze Dry method is for example described in United States Patent (USP) 5,208,998.Other spray drying technologies are for example in United States Patent (USP) 6,253,463, it carries out in 6,001,336, No. 5,260,306 and PCT International Publication WO 91/16882 and WO 96/09814 Description.

Freeze drying technology is well known to the skilled person.Freeze-drying is product in freezing state (under vacuum condition Ice distillation) and the dehydration technique of (pass through low-grade fever dry) progress under vacuum conditions.These conditions stablize product, minimize Oxidation and other degradation processes.The conditions permit of freeze-drying implementation method at low temperature, therefore can protect thermally labile Product.The step of freeze-drying includes pretreatment, freezing, primary drying and redrying.Pretreatment is located before being included in freezing Manage any method of product.This may include concentrated product, (i.e. addition component is to increase stability and/or improvement for preparation amendment Processing), reduce high vapor pressure solvent or increase surface area.Pretreated method includes: that freeze concentration, solution are mutually concentrated and especially Ground is prepared to keep product appearance or provide frozen-dried protective for reactive product, and for example at United States Patent (USP) 6,199,297 In be described." standard " lyophilisation condition is for example in United States Patent (USP) 5,031,336 and " Freeze Drying of (DeLuca, Patrick P., J.Vac.Sci.Technol. roll up in January, 14, No.1,1977/bis- to Pharmaceuticals " Month) and " The Lyophilization of Pharmaceuticals:A Literature Review " (Williams, N.A. and G.P.Polli, Journal of Parenteral Science and Technology, roll up 38, No.2,1984 March/April) in be described.

In certain preferred aspects, cyclic part is lyophilized in the glass transition temperature (Tg) of therapeutic drug formulation It is above to carry out to cause group to collapse fastly, to form the dense cake containing residual moisture.In other embodiments, freeze-drying follows Ring is implemented below glass transition temperature, collapses caused by being completely dried of particle to avoid in order to obtain.

V. treatment method

On the other hand, the present invention provides through to treatment, mitigation or prevent disease, illness or the patient's condition to object application A effective amount of stabilization formulations as described herein are come the method for the treatment of disease or illness.In some embodiments, to be utilized Disease, illness or the patient's condition of stabilization formulations treatment of the invention are diabetic disorders.The example of diabetic disorders includes but unlimited In type 1 diabetes, diabetes B, gestational diabetes mellitus, prediabetes, hyperglycemia, hypoglycemia and metabolic syndrome.? In some embodiments, disease, illness or the patient's condition are hypoglycemias.In some embodiments, disease, illness or the patient's condition are sugar Urine disease.

In some embodiments, treatment method of the invention include by the object application with hypoglycemia to controlling A effective amount of stabilization formulations as described herein of hypoglycemia are treated to treat hypoglycemia.In some embodiments, to right As applying the stabilization formulations comprising glucagon.

In some embodiments, treatment method of the invention includes by applying diabetic to treatment diabetes A effective amount of stabilization formulations as described herein treat diabetes.It in some embodiments, include pancreas to object application The stabilization formulations of island element.It in some embodiments, include the stabilization formulations of pramlintide to object application.In some embodiment party It include the stabilization formulations of insulin and pramlintide to object application in case.In some embodiments, include to object application The stabilization formulations of Exenatide.It in some embodiments, include the stabilization of glucagon and Exenatide to object application Preparation.

For treat disease, illness, the patient's condition (such as diabetic disorders, such as hypoglycemia or diabetes) such as this paper institute The administration dosage of the peptide medicine of description is consistent with the dosage that those skilled in the art are practiced and the plan course for the treatment of.Institute in the present invention The of the general guide of the suitable dose of all pharmaceutical agents used in Goodman above-mentioned and Gilman Pharmacological Basis of Therapeutics, the 11st edition, 2006 and in Physicians ' Desk Reference (PDR), such as provided in the 65th edition (2011) or the 66th edition (2012), PDR Network, LLC, wherein often One is all incorporated herein by reference herein.For treating the conjunction of the peptide medicine of disease as described herein, illness or the patient's condition Suitable dosage can be according to several factors, preparation, patient's reaction, the seriousness of illness, the weight of object and prescription including composition The judgement of doctor and change.Medically a effective amount of peptide medicine of the formulation delivered of effective dose.Dosage can be according to individual The needs of patient are increased or decreased with the time.

The determination of effective quantity or dosage is exactly in the limit of power of those skilled in the art, in particular according to presented herein Detailed disclosure.Normally, the preparation for delivering these dosage can contain one, two, three, four or more of peptide or peptide Analog (all " peptide ", unless specifically excluded peptide analogues), wherein every kind of peptide from about 0.1mg/mL to most polypeptide to exist The concentration of solubility limit in preparation exists.The concentration is preferably from about 1mg/mL to about 100mg/mL, for example, about 1mg/mL, about 5mg/mL, about 10mg/mL, about 15mg/mL, about 20mg/mL, about 25mg/mL, about 30mg/mL, about 35mg/mL, about 40mg/mL, About 45mg/mL, about 50mg/mL, about 55mg/mL, about 60mg/mL, about 65mg/mL, about 70mg/mL, about 75mg/mL, about 80mg/ ML, about 85mg/mL, about 90mg/mL, about 95mg/mL or about 100mg/mL.

Preparation of the invention can be used in subcutaneous, skin or intramuscular application is (such as by injecting or by defeated Note).In some embodiments, preparation is subcutaneous administration.

The preparation of the disclosure is applied using suitable device by infusion or by injecting.For example, preparation of the invention It can be placed into syringe, injection device, automatic injector assembly or pump installation.In some embodiments, injection dress Set is multi-dose syringe pump device or multi-dose automatic injector assembly.Preparation is so that preparation is driving injection device, example Mode as that can flow easily out syringe needle when automatic injector actuating is presented in a device, to deliver peptide medicine.Suitable pen/ Automatic injector assembly includes but is not limited to by Becton-Dickenson, Swedish Healthcare Limited (SHL Group), those of manufacture such as YpsoMed Ag pen/automated injection device.Suitable pump installation includes but is not limited to by Tandem Those of Diabetes Care, Inc., Delsys Pharmaceuticals etc. manufacture pump installation.

In some embodiments, provide be ready to bottle, syringe or in advance applied in the syringe filled at this The preparation of invention.

On the other hand, the present invention provides stabilization formulations as described herein can use for being formulated for treatment Any disease, the purposes of the drug of illness or the patient's condition of the peptide treatment of preparation.In some embodiments, stabilization formulations are for matching System treatment diabetic disorders, such as type 1 diabetes, diabetes B, gestational diabetes mellitus, prediabetes, hyperglycemia, low blood The drug of sugared disease or metabolic syndrome.

In some embodiments, stabilization formulations are used to be formulated for the drug for the treatment of hypoglycemia.In some embodiment party In case, stabilization formulations include glucagon or its salt (such as acetic acid glucagon).In some embodiments, stablize system Agent includes glucagon and Exenatide.

In some embodiments, stabilization formulations are used to be formulated for the drug for the treatment of diabetes.In some embodiments In, stabilization formulations include insulin.In some embodiments, stabilization formulations include Exenatide.In some embodiments, Stabilization formulations include pramlintide.In some embodiments, stabilization formulations include insulin and pramlintide.

VI. kit

On the other hand, the present invention is provided to treat the kit of disease as described herein, illness or the patient's condition. In some embodiments, kit includes: to make comprising one, two, three, four or more of peptide or stablizing for its salt Agent, wherein the peptide has been dried in non-volatile buffer, and wherein dry peptide has and is approximately equal to peptide and waves non- The pH memory of pH in hair property buffer；And aprotic polar solvent；Wherein the moisture content of preparation is less than 5%, and wherein When dry peptide reconstructs in aprotic polar solvent, dry peptide holding is approximately equal to pH of the peptide in non-volatile buffer PH memory；With the syringe for applying stabilization formulations to object.

In some embodiments, kit include for used in the hypoglycemia in treatment object as herein retouch The stable glucagon formulation stated.In some embodiments, kit includes glucagon formulation, the high blood of pancreas Sugared element preparation includes: glucagon or its salt (such as acetic acid glucagon), wherein the glucagon is done It is dry in non-volatile buffer, and wherein dry glucagon has and is approximately equal to glucagon selected from glycine Buffer, citrate buffer agent, phosphate buffer and its mixture non-volatile buffer in pH, wherein dry The pH of glucagon remembers from about 2.0 to about 3.0；With selected from dimethyl sulfoxide (DMSO), N-Methyl pyrrolidone (NMP), The aprotic polar solvent of ethyl acetate and its mixture；Wherein the moisture content of preparation is less than 1%, and wherein when dry When glucagon reconstructs in aprotic polar solvent, dry glucagon holding is approximately equal to glucagon and waves non- The pH memory of pH in hair property buffer.In some embodiments, glucagon formulation also includes the solidification for reducing preparation The cosolvent of point, wherein the cosolvent is selected from ethyl alcohol, propylene glycol, glycerol and its mixture.In some embodiments, pancreas is high Blood glucose element preparation also includes the stabilisation excipient selected from sugar, starch and its mixture.In some embodiments, pancreas hyperglycemia Element from about 1mg/mL to the amount of about 50mg/mL to be present in preparation.

In some embodiments, kit includes for as described herein used in the diabetes in treatment object Stable insulin and pramlintide preparation.In some embodiments, kit includes insulin and pramlintide preparation, The insulin and pramlintide preparation include: insulin, wherein the insulin is being selected from glycine buffer, lemon It is dried in first non-volatile buffer of hydrochlorate buffer, phosphate buffer and its mixture, and wherein dry Insulin have be approximately equal to pH of the insulin in the first non-volatile buffer the first pH memory, wherein the first pH memory from About 1.5 to about 2.5 or from about 6.0 to about 8.0；Pramlintide, wherein the pramlintide selected from glycine buffer, It is dried in second non-volatile buffer of citrate buffer agent, phosphate buffer and its mixture, and is wherein done Dry pramlintide has the 2nd pH memory for being approximately equal to pH of the pramlintide in the second non-volatile buffer, wherein second PH memory from about 3.0 to about 5.0 or from about 4.0 to about 6.0；Be selected from dimethyl sulfoxide (DMSO), N-Methyl pyrrolidone (NMP), the aprotic polar solvent of ethyl acetate and its mixture；Wherein the moisture content of preparation is less than 1%, wherein working as drying Insulin when being reconstructed in aprotic polar solvent, it is non-volatile slow first that dry insulin holding is approximately equal to insulin The first pH of pH in electuary remembers, and wherein when dry pramlintide reconstructs in aprotic polar solvent, dry Pramlintide keep be approximately equal to pH of the pramlintide in the second non-volatile buffer the 2nd pH memory.In some implementations In scheme, insulin and pramlintide preparation include also the cosolvent for reducing the freezing point of preparation, wherein the cosolvent is selected from Ethyl alcohol, propylene glycol, glycerol and its mixture.In some embodiments, the insulin in the first non-volatile buffer and One or both of pramlintide in two non-volatile buffers is also comprising the stabilisation selected from sugar, starch and its mixture Excipient.In some embodiments, the first non-volatile buffer and the second non-volatile buffer are identical.In some implementations In scheme, the first non-volatile buffer and the second non-volatile buffer are different.In some embodiments, insulin and general Each of blue woods peptide from about 1mg/mL to the amount of about 50mg/mL all to be present in preparation.In some embodiments, One pH remembers from about 1.5 to about 2.5.In some embodiments, the first pH remembers from about 6.0 to about 8.0.In some embodiment party In case, the 2nd pH remembers from about 3.0 to about 5.0.In some embodiments, the 2nd pH remembers from about 4.0 to about 6.0.One In a little embodiments, the first pH memory is remembered from the about 1.5 to about 2.5, and the 2nd pH from about 3.0 to about 5.0.

In some embodiments, kit includes a part as an injection device, automatic injector assembly or pump Syringe.In some embodiments, syringe premounting expires stabilization formulations.In some embodiments, kit further includes Specification, wherein the application of the instructions direct stabilization formulations is to treat the object of this needs (such as with hypoglycemia Or the patient of diabetes).

VII. embodiment

The present invention can be described more fully by specific embodiment.Following embodiment is to provide for illustrative purposes , it is not intended that it limit the invention in any way.Those skilled in the art, which can easily identify, can change or change and produce The various nonessential parameters of raw essentially identical result.

Embodiment 1: the preparation of glucagon solution used in freeze-drying

Various solution are prepared with the glucagon comprising concentration for 10mg/mL.Glycine of the solution comprising 5mM, Citrate or phosphate usually provide and establish the buffer that pH is 3.W/v amount (1:1) of the solution also to be equal to glucagon Amount or alone or in combination include sugar with the amount of 200% (2:1) glucagon.The sugar is trehalose, HES or β-ring paste Smart (β-CD).Some solution also include 0.10% Tween-20 as surfactant.Various preparations are retouched with such as following table 1 The amount stated is mixed to substantially uniform.

The glucagon mixture that table 1. is lyophilized for after

In order to prepare mixture, glucagon is with 10mg/mL in each buffer (phosphate, citrate and/or sweet ammonia Acid buffering agent, 5mM, pH 3.0) in dissolution.Then solution is mixed with the ratio of 1:1 (v/v) with various solutes, described various molten Matter wishes prepared by twice of concentration using corresponding buffer, with obtain 5mg/mL final Glucagon concentrations and Final desired solute concentration.Then solution is filtered by 0.2 μm of Millipore PES film to remove insoluble object Matter.Sample preparation carries out in 4 DEG C of cold house.The concentration and purity of glucagon pass through RP--HPLC and size exclusion (SE)-HPLC is determined.

Embodiment 2: pass through the preparation of the glucagon powder of the drying of freeze-drying

The preparation of upper table 1 is pipetted into the freeze-drying bottle (13-mm ID) of 3-mL.Preparation is dry in FTS Durastop freezing It is lyophilized in dry machine (Stoneridge, NY).Sample is freezed at -40 DEG C with 2.5 DEG C/min of gradient, and holding 2 is small When enable to sufficiently freeze.Then, sample temperature is increased to -5 DEG C with 2 DEG C/min of gradient, and keeps 2h as renaturation Step.Then, temperature is reduced to 30 DEG C with 1.5 DEG C/min of gradient, and opens vacuum to 60 person of outstanding talent's supports.Primary drying is set as 24h.Temperature is gradually increased to 40 DEG C with 0.5 DEG C/min of gradient, and keeps 10h again.After the completion of drying, bottle is in vacuum Lower use is covered from the XX plug (product #10123524) of West Pharmaceutical company.All formulations are dry in freezing Any sign that agglomeration collapses is not shown after dry.Finally the moisture content of dry product is less than 1%w/w.

Embodiment 3: the preparation of the glucagon formulation in aprotic polar solvent

Selection is by six kinds in the made dry powder of solution in table 1 for the preparation in polarity, aprotic solvent:

1. buffer (glycine)+trehalose (relative to glucagon 200%) (preparation #3)

Buffer 2. (glycine)+HES (relative to glucagon 200%) (preparation #4)

3. buffer (glycine)+trehalose (relative to glucagon 100%)+HES is (relative to glucagon 100%) (preparation #5)

4. buffer (glycine)+Tween-20 (0.01%w/v)+trehalose (relative to glucagon 200%) (system Agent #19)

5. buffer (glycine)+Tween-20 (0.01%w/v)+HES (relative to glucagon 200%) (preparation # 20)

6. buffer (glycine)+Tween-20 (0.01%w/v)+trehalose (relative to glucagon 100%)+HES (relative to glucagon 100%) (preparation #21)

Embodiment 4: the preparation for the glucagon solution that the pH with 4-5 remembers

Solution is prepared with the glucagon comprising concentration for 10-20mg/mL.Solution includes the lemon for establishing the pH of 4-5 Hydrochlorate buffer.Solution also includes the sugar alcohol that concentration is 50-100mg/mL, mannitol.Preparation is mixed to substantially uniform, and is passed through Drying cycles described in embodiment 2 are less than 0.5%w/w to be freeze-dried to residual moisture.Dry powder is dissolved into DMSO It is 10-20mg/mL, mannitol concentration 50-10mg/mL to Glucagon concentrations.

Embodiment 5: the preparation with low moisture and subzero PTH (1-34) solution

Solution is prepared with the PTH (1-34) comprising concentration for 10-20mg/mL.Solution includes the citric acid for establishing the pH of 4-5 Salt buffer agent.Solution also includes the sugar alcohol that concentration is 50mg/mL, mannitol.Preparation is mixed to substantially uniform, and passes through embodiment Drying cycles described in 2 are less than 0.5%w/w to be freeze-dried to residual moisture.Dry powder is dissolved into DMSO to PTH (1-34) concentration is 10-20mg/mL, mannitol concentration 50-100mg/mL.

Embodiment 6: the raising of blood Plasma Glucagon Level and blood glucose level after glucagon application

In aprotic polar solvent based on the glucagon-glycine-trehalose powder for being dissolved in NMP or DMSO Two kinds of non-aqueous glucagon formulations are tested in the pharmacokinetics and pharmacodynamic studies of rat, and with it is aqueous Preparation is compared.Rat is all with the rate medication of 10g glucagon/rat.Non-aqueous glucagon solution is with 10 μ L's Subcutaneous injection is given, as aqueous contrast solution.The preparation of all tests confirms the fast of blood Glucagon concentrations Speed increases (referring to Fig. 1).

Aqueous check analysis pharmacokinetics (PK) parameter is added to four treatment groups.Non- chamber is carried out to each rat PK analysis.C_{It is maximum}And T_{It is maximum}It is calculated according to the data of observation.Estimate without area (AUC) under extrapolation calculated curve.Data make It is analyzed with five groups of ANOVA to compare PK parameter between the groups.C between three groups_{It is maximum}、T_{It is maximum}Or it is not observed in AUC aobvious The difference of work.NMP and DMSO preparation relative to aqueous control group relative bioavailability all close to 100% (respectively 76% and 92%).Therefore, based on these P of Rats K research as a result, non-aqueous formulation substantially bioequivalence in the high blood of aqueous pancreas Sugared element preparation.

As predicted from pharmacokinetic results, non-aqueous glucagon formulation generation is substantially equivalent to same dose water The pharmacodynamics curve (referring to fig. 2) of the glucagon formulation of flat water reconstruct.

Embodiment 7: the solubility that glucagon enhances in aprotic polar solvent compared with aqueous solution

Glucagon is prepared by being dissolved in one of following buffer with 1.0mg/mL:

1.2mM citric acid, pH 2.0 (being titrated with concentrated hydrochloric acid) (" C2.0 ")

2.2mM citric acid, pH 3.0 (being titrated with concentrated hydrochloric acid) (" C3.0 ")

Every kind of preparation is placed in sterile 2cc bottle with the packing volume of 1mL.Sample is frozen dry to reduce residual Moisture, and DMSO, NMP or 50/50 DMSO/NMP cosolvent in be reconfigured to various nominal concentrations.Concentration is reconstructed from 1 To 30mg/mL.Solubility passes through via A₆₃₀It estimates transparency, turbidity and is measured by RP-HPLC.

As shown in table 2 below, the pancreas hyperglycemia being lyophilized together with citrate buffer agent that pH memory is 2.0 and 3.0 Element can be readily dissolved into the concentration of 30mg/mL.Same preparation can only can be dissolved completely in H in lower concentration₂O.It is right PH in 3.0 remembers, in H₂The Perfect Reconstruction that concentration is 5mg/mL is only obtained in O.In addition, being dissolved in H₂The glucagon of O is only It is meta-stable, i.e., it only keeps solvable within a few hours, then starts gelatinization or is formed with depending on the rate of pH and concentration Fibrinogen, and being dissolved in aprotic polar solvent/cosolvent glucagon is that indefinite duration is stable.

The solubility of the glucagon when pH memory is 2.0 and 3.0 of table 2.

Influence of the embodiment 8:pH to glucagon solubility in aprotic polar solvent.

From the point of view of remember from pH when data shown in embodiment 8 and table 2, it is clear that in aprotic polar solvent Lower pH memory (such as pH 2.0) is than that can obtain higher glucagon solubility in higher pH.In addition, although Recovery in table 2 shows basic 100% nominal concentration, but A₆₃₀Measurement is shown in pure NMP and DMSO/NMP cosolvent The C2.0 that the pH memory of 30mg/mL increases for the turbidity of 3.0 glucagon (C3.0) solution, and remembers with 2.0 pH Preparation is kept substantially no muddiness.

In another example, for being dissolved in together with 2mL glycine or 2mM citrate buffer agent with 2mg/mL H₂The influence of solubility of the acetic acid glucagon measurement PH of O to glucagon in aprotic polar solvent, pH are adjusted To desired value.Sample be frozen it is dry and DMSO, NMP or 50/50 DMSO/NMP cosolvent in be reconfigured to various marks Claim concentration.Solubility passes through via A₆₃₀It estimates transparency, turbidity and is measured by RP-HPLC.

It was found that " pH memory " from freeze-drying has main influence to glucagon stability.For " G2.5 " (pH note Recall 2.5) lyophile DMSO, DMSO/NMP and NMP, glucagon can dissolve under up to 30mg/mL reconstruct.For The lyophile of " G3.5 " (pH memory 3.5) observes the solubility being substantially reduced.The lyophile of G3.5 is all muddy, recovery It is incomplete, or even under the nominal reconstruct concentration of 10mg/mL and such.DMSO and DMSO/NMP cosolvent is shown about 95% return rate, and NMP only shows about 60% return rate.

Embodiment 9: influence of the buffer species to glucagon stability in DMSO

Acetic acid glucagon is prepared by being dissolved in one of following buffer with 1.0mg/mL:

1.2mM L- glycine, pH 3.0 (are titrated) with concentrated hydrochloric acid

2.2mM citric acid, pH 3.0 (are titrated) with concentrated hydrochloric acid

These preparations are frozen dry doubling and are reconstructed in DMSO under the nominal concentration of 5mg/mL glucagon.Preparation is placed In 5 DEG C, 25 DEG C and 40 DEG C of stability insulating box.The purity of glucagon is determined using Reversed phase HPLC method.

After the incubation at a month various temperature, stability of the preparation in glycine buffer is obviously more preferable.The following table 3 Show the RP-HPLC purity in the various periods of the incubation at 40 DEG C.

Influence of 3. buffer species of table to glucagon stability in DMSO

Preparation	Time=0	1 week	2 weeks	4 weeks
					Glycine, pH 3.0	99.4	99.1	99.0	96.6
Citrate, pH 3.0	98.6	97.7	97.3	92.7

Embodiment 10: influence of the moisture to glucagon stability in DMSO

1.2mM L- glycine, pH 3.0 (are titrated) with concentrated hydrochloric acid

2.2mM L- glycine, pH 3.0 (are titrated) with concentrated hydrochloric acid

These preparations are frozen dry doubling and are reconstructed in DMSO under the nominal concentration of 5mg/mL glucagon.It will be additional Moisture is added in the second preparation.Moisture content is measured using Karl Fisher method.The moisture content of first preparation is 0.13% (w/w), and the moisture content of the second preparation is 0.54% (w/w).Preparation is placed on 5 DEG C, 25 DEG C and 40 DEG C of stabilization In property insulating box.The purity of glucagon is determined using Reversed phase HPLC method.

After incubating one month at various temperatures, the stability of the preparation with less moisture is considerably higher.The following table 4 is shown The RP-HPLC purity in various periods is incubated at 40 DEG C.Even when moisture content is lower than 1%, it can detecte apparent Stability difference.

Influence of 4. residual moisture of table to glucagon stability in DMSO

Preparation	Time=0	1 week	2 weeks	4 weeks
					Less moisture	99.4	99.1	99.0	96.6
Additional moisture	99.2	98.9	98.8	95.6

The freezing point of embodiment 11:DMSO solution reduces

Using PerkinElmer Instruments PYRIS Diamond differential scanning calorimeter (" DSC "), in order to sieve Choosing, sample are cooled to -40 DEG C per minute with 8 DEG C and are heated to 40 DEG C.

DMSO/NMP mixture

Test various DMSO and NMP mixtures, comprising:

1.90%DMSO+10%NMP

2.80%DMSO+20%NMP

3.70%DMSO+30%NMP

4.60%DMSO+40%NMP

5.50%DMSO+50%NMP

DSC scanning show the temperature of solvent crystallization gradually from pure DMSO~18 DEG C be reduced to 50%NMP/50%DMSO - 5.7 DEG C of mixture.Add acetic acid glucagon, the Glucagon concentrations of glycine lyophile to 5mg/mL cause to coagulate Solid point reduces~1 DEG C again.

DMSO/ ethyl acetate mixture

Test various DMSO and ethyl acetate mixture, comprising:

1.80%DMSO+20% ethyl acetate (Tc=16 DEG C)

2.70%DMSO+30% ethyl acetate

3.60%DMSO+40% ethyl acetate (Tc=6.5 DEG C)

4.50%DMSO+50% ethyl acetate (Tc=2.9 DEG C)

5.40%DMSO+60% ethyl acetate (Tc=is not observed)

DSC scanning show the crystallization temperature of solvent gradually from pure DMSO~18 DEG C be reduced to 50%NMP/50%DMSO 2.9 DEG C of mixture.Peak crystallization is not observed for 40%DMSO/60% ethyl acetate mixture.In addition, these preparations exist The sign for storing several days under refrigerated storage temperature (4 DEG C), and being solidified with eye observation.There is 30% or more ethyl acetate in cosolvent All formulations keep liquid, do not solidify.This has slightly different with Tc what is observed in DSC research.

DMSO solution containing alcohol cosolvent

The various DMSO solutions of alcohol (ethyl alcohol, glycerol or propylene glycol) cosolvent are added in test, including

1.95%DMSO+5% alcohol

2.90%DMSO+10% alcohol

3.80%DMSO+20% alcohol

4.70%DMSO+30% alcohol

5.60%DMSO+40% alcohol

6.50%DMSO+50% alcohol

7.40%DMSO+60% alcohol

8.30%DMSO+70% alcohol

9.20%DMSO+80% alcohol

10.10%DMSO+90% alcohol

These preparations store several days under refrigerated storage temperature (4 DEG C), and the sign solidified with eye observation.Contain 20% or more The all formulations of alcohol cosolvent keep liquid, do not solidify.DSC scanning display 20% alcohol cosolvent freezing point for ethyl alcohol, Glycerol and propylene glycol are respectively 2.3 DEG C, 0.6 DEG C and 3.3 DEG C.

Embodiment 12: the freeze-thaw stability of glucagon

Acetic acid glucagon by be dissolved in pH 3.0 (being titrated with concentrated hydrochloric acid) 2mM L- glycine with 1.0mg/mL To prepare.Glucagon formulation is frozen dry doubling and is reconstructed in DMSO under the nominal concentration of 5mg/mL glucagon.It will Solution example separates, and trehalose is added to 5% concentration into a solution.These preparations are distributed in bottle and are placed into In 5 DEG C of stability insulating box.At 5 DEG C, observe that these solution solidify.Glucagon solution solves at various intervals Freeze, turbidity is determined using the absorbance at 630nm.

The following table 5 shows the turbidity that glucagon solution incubates various periods at 5 DEG C.There is no the solution of trehalose aobvious It shows and increases in the turbidity for incubating each time point.However, the solution comprising trehalose does not show the increase of turbidity.Turbidity is surveyed Amount is confirmed by estimating.Not having the sample of the freezing of trehalose and incubation is muddy or opaque in observation.

The turbidity of glucagon solution after table 5. is incubated at 5 DEG C

Preparation	Time=0	1 week	2 weeks	4 weeks
					There is no trehalose	0.024	0.142	0.130	0.160
5% trehalose	0.016	0.029	0.028	0.035

Unexpectedly, during freeze-thaw, carbohydrate additive, such as seaweed are used in the DMSO solution of peptide Sugar enhances the stability of peptide.

Embodiment 13: enhance Thawing Rate using trehalose

For embodiment 13, acetic acid glucagon as described above is by being dissolved in pH's 3.0 (being titrated with concentrated hydrochloric acid) The L- glycine of 2mM is prepared with 1.0mg/mL.After 5 DEG C of storage removal, the pancreas hyperglycemia comprising trehalose is observed The sample of plain solution thaws completely within more times shorter than the solution of not trehalose.Observe the sample comprising trehalose It thaws completely in less than 30 seconds, it is different from the glucagon solution of not trehalose, observe that the pancreas of not trehalose is high Blood glucose element solution generally will just thaw completely in a few minutes.If solution is to freeze and must be injected rapidly, that The ability of rapid defrosting peptide formulations is particularly advantageous in urgent rescue situation.

Influence of the embodiment 14:pH to insulin solubility

Insulin is with phosphate/citrate -1mM edta buffer agent one of 10mg/mL and the 10mM of pH 2 or pH 7 It rises and is dissolved in H₂O.These solution are reconfigured to respectively in DMSO using conservative circulation freeze-drying to drying (> 1% residual moisture) Kind nominal concentration.Solubility passes through via A₆₃₀Transparency and turbidity are estimated to measure.

When pH is 2, observe that insulin can dissolve at least concentration of 100mg/mL.However, when pH memory is 7, Even at minimum experimental concentration 10mg/mL, (A also is scattered using increased light₆₃₀) as muddy or opaque solution Observe the solubility of insulin difference.Observe that the pH memory of some low concentrations such as 10mg/mL exists for 7 insulin solutions Clear solution is slowly dissolved into about 24 hours time.

Influence of the embodiment 15:pH to pramlintide solubility

Pramlintide acetate is with 2mg/mL and the 10mM citrate buffer agent of pH 4 or the 10mM phosphate-buffered of pH 7 Agent is dissolved in H together₂O.These solution are reconstructed in DMSO using conservative circulation freeze-drying to drying (> 1% residual moisture) To various nominal concentrations.Solubility passes through via A₆₃₀Transparency and turbidity are estimated to measure.

PH memory does not dissolve in DMSO for 7 pramlintide with any concentration.However, low concentration pH memory for 4 it is general Blue woods peptide dissolves in DMSO.

Embodiment 16: the total preparation of the peptide in aprotic polar solvent

The preparation of preparation is prepared by the preparation of independent dry single compound in aqueous solution altogether, and the aqueous solution exists Optimal dissolution degree/stability is provided when being reconfigured in aprotic polar solvent.PH value of solution is the property for influencing peptide solubility, when dry When dry peptide is reconfigured in aprotic polar solvent, it can remain at drying using non-volatile buffer " the pH memory " of the aqueous compositions of peptide.Because aprotic polar solvent does not have tradable proton, single peptide can be kept most The solubility and stability characteristic of good pH memory.

Current pramlintide and insulin preparation conflicts in its buffer system, and the compatibility of mix preparation is made to become tired It is difficult.Most of insulin and insulin analog have the isoelectric point of 5-6, thus about 7 pH or lower about 2 PH is prepared.Pramlintide has > 10.5 isoelectric point, and is prepared in about 4 pH of its best stabilized.Pulan woods Peptide formulations and insulin preparation typically result in soluble insulin component in the interaction of different pH and different buffer capacities Precipitating or crystalline insulin component dissolution.Utilize grinding in vitro for the preparation of pramlintide and short-acting and long-acting insulin Study carefully the significant change for having found the insulin solubility when the insulin of various amounts is mixed with the pramlintide of fixed amount.

Therefore, the present invention provides a kind of preparation, by the insulin type and dextrin analog of the preparation snap action All it is stable, and can be administered simultaneously by the single preparation for injecting or preparing.Said preparation is closer than the prior art As simulation to the raised native physiological of post-meal blood glucose react.

The example for the peptide that can be prepared altogether includes but is not limited to: (1) (pH memory is about 2.0 or about 7.0 to insulin-dextrin Insulin and pH memory be about 4.0 dextrin or dextrin analog (such as pramlintide))；(2) glucagon- GLP-1 (pH memory be about 3.0 or lower glucagon and pH memory be about 4.0-5.0 glucagon-like-peptide-1 (GLP-1) or its analog (such as Exenatide)).

The total preparation of insulin and pramlintide is prepared as follows: the preparation pH memory 2 as described by example 14 above, The insulin preparation of 100mg/mL insulin.PH is prepared as described by example 15 above remembers the general of 4,1mg/mL pramlintide Blue woods peptide formulations.5 μ l insulin preparations are mixed with 95mL pramlintide solution.Observe resulting solution be it is transparent, from And it is respectively 2 and 4 insulin and the soluble preparation altogether of pramlintide that respective pH memory, which is made,.

It should be understood that above description is intended to serve as illustrating and noting limit property.By reading many embodiment party of above description Case can be obvious to those skilled in the art.Therefore, the scope of the present invention should not determine as described above, and The full breadth of the equivalent program that should be enjoyed rights according to the attached claims together with the claim determines.All texts Chapter and bibliography, the disclosure including patent application, patent and PCT application are incorporated herein by reference for all purposes.

Claims

1. a kind of parenteral injection stablizing solution, includes:

(a) dry via non-volatile buffer glucagon peptide or its salt；With

(b) aprotic polar solvent, wherein the glucagon peptide or its salt are with 0.1mg/mL to the up to high blood of pancreas The amount of sugared element peptide or its salt solubility limit is reconstructed and is dissolved in the aprotic polar solvent；

Wherein the moisture content of the solution is less than 5%, and wherein when dry glucagon peptide or its salt are described non- When being reconstructed in proton polar solvent, dry glucagon peptide or its salt keeps equal to glucagon peptide or its salt is waved non- The pH memory of pH in hair property buffer, wherein pH memory is 2 to 3.5.

2. stablizing solution according to claim 1, wherein the non-volatile buffer is selected from glycine buffer, lemon Or mixtures thereof hydrochlorate buffer, phosphate buffer.

3. stablizing solution according to claim 2, wherein the non-volatile buffer is glycine buffer.

4. stablizing solution according to claim 1, wherein the pH of the glucagon peptide or its salt memory is 2 to 3.

5. stablizing solution according to claim 1, wherein the aprotic polar solvent is selected from dimethyl sulfoxide, N- methyl Pyrrolidones, ethyl acetate and its mixture.

6. stablizing solution according to claim 5, wherein the aprotic polar solvent is N-Methyl pyrrolidone.

7. stablizing solution according to claim 5, wherein the aprotic polar solvent is dimethyl sulfoxide.

8. stablizing solution according to claim 1, also comprising the cosolvent for reducing the freezing point of the solution, wherein described Cosolvent is selected from ethyl alcohol, propylene glycol, glycerol and its mixture.

9. stablizing solution according to claim 1, also comprising the stabilisation excipient selected from sugar, starch and its mixture.

10. stablizing solution according to claim 1, the glucagon peptide comprising 0.1mg/mL to 30mg/mL or Its salt.

11. stablizing solution according to claim 1, wherein the non-volatile buffer is glycine buffer, it is described Aprotic polar solvent is dimethyl sulfoxide.

12. stablizing solution according to claim 11, wherein stablizing solution also includes selected from sugar, starch and its mixture Stabilize excipient.

13. stablizing solution according to claim 12, wherein the stabilisation excipient is trehalose.

14. stablizing solution according to claim 1 also includes the second peptide or its salt.

15. stablizing solution according to claim 14, wherein second peptide is glucagon-like-peptide-1.

16. stablizing solution according to claim 1, wherein the stablizing solution includes in syringe or pump installation.

17. stablizing solution according to claim 1, wherein the stablizing solution includes in injection device.

18. stablizing solution according to claim 1, wherein the stablizing solution includes in automatic injector assembly.